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− | '''Shore protection vegetation'''
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− | This article provides an overview of plant species that contribute to strengthening the shore protection function of dune coasts. The focus is on plants that can cope with the saline, nutrient-poor and harsh hydro-sedimentary conditions in the zone between the high-water (HW) line and the more stable backshore. These are species that can grow and thrive in shifting sands, that have a strong sand-binding capacity due to an extensive root system and that favor sand accumulation with their foliage.
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− | The overview has not the pretention to be exhaustive. There are hundreds of plant species occurring along the shores of different continents that are adapted to nearshore conditions. The inventory (Table 1) focuses on species with a high shore protection capacity and that are common to shores worldwide. Shore vegetation with a low sand-binding capacity is not included. The selection is probably biased towards species that are well described in the literature and may ignore some important less common and less-studied species.
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− | ==Shore protection function==
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− | Shore vegetation contributes to shore protection in two complementary ways (Feagin et al., 2015<ref name=F>Feagin, R. A., J. Figlus, J. C. Zinnert, J. Sigren, M. L. Martínez, R. Silva, W. K. Smith, D. Cox, D. R. Young, and G. Carter. 2015. Going with the flow or against the grain? The promise of vegetation for protection beaches, dunes, and barrier islands from erosion. Frontiers in Ecology and the Environment 13: 203–210</ref>; Bryant et al., 2019<ref>Bryant, D.B., Anderson-Bryant, M., Sharp, J.A., Bell, G.L. and Moore, C. 2019. The response of vegetated dunes to wave attack. Coastal Engineering 152, 103506 </ref>):
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− | # by decreasing wave runup, due to the frictional effect of stems and foliage;
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− | # by decreasing sand loss by wave backwash, due to the effect of plant roots on sand aggregation and fixation.
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− | These functions may increase the retention of sand volume of the upper beach and backshore during storms and high water levels. This sand also nourishes further aeolian inshore transport and increases the sand volume of the dunes behind.
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− | The sand-binding function of vegetation is not only because roots retain the sand, but also because roots improve the soil structure, by adding organic material (due to plant turnover and leaf litter), moisture (due to surface shading by plants), and by strengthening the sand aggregation function of microorganisms and fungi<ref name=F></ref>. Experiments show that vegetation increases the stability of dunes during wave attack (Silva et al., 2016<ref>Silva, R., Martinez, M.L., Oderiz, I., Mendoza, E. and Feagin, R.A. 2016. Response of vegetated dune–beach systems to storm conditions. Coastal Engineering 109: 53–62</ref>). However, vegetation is usually not strong enough to prevent beach and dune erosion under extreme storm conditions. It is the sand mass of the entire dune complex that should be large enough to provide protection against flooding of the hinterland by preventing breach of the dune belt (see [[Dune erosion]]). However, the presence of vegetation, the vegetation density, species present, and density and depth of the roots all assist in reducing the degree of scarping and dune erosion (Davidson et al., 2020<ref> Davidson, S., Hesp, P.A., Miot da Silva, G. 2020. Controls on dune scarping. Progress in Physical Geography. PPG-19-140</ref>). Recolonization of eroded parts of the beach, dune scarps and foredunes by vegetation stimulates beach restoration<ref name=F></ref>. However, post-storm beach restoration depends primarily on sand supply from the surf zone to the beach by hydrodynamic processes, in particular wave-induced onshore sand transport and longshore drift (see [[Shoreface profile]]). In the case where there is insufficient sand supply (beaches subjected to ongoing shoreline retreat), beach restoration requires artificial sand nourishment. The beach width can also be restored by dune translation and retreat (Davidson-Arnott et al., 2018<ref name=DA> Davidson-Arnott, R., Hesp, P.A., Ollerhead, J., Walker, I., Bauer, B., Delgado-Fernandez, I. and Smyth, T.A.G. 2018. Sediment budget controls on foredune height: a comparison of simulation model results and field data. Earth Surface Processes and Landforms 43: 1798-1810. doi: 10.1002/esp.4354</ref>), which may happen naturally unless the backshore is a hard cliff or protected by a hard structure (McLachlan et al., 2018<ref name=MD>McLachlan, A. and Defeo, O. 2018. Coastal Dune Ecosystems and Dune–Beach Interactions. In The Ecology of Sandy Shores (Third Edition) 309-329. Academic Press</ref>). No important difference in vegetation type is observed between prograding and retreating coasts (Konlechner et al., 2019<ref>Konlechner, T.M., Kennedy, D.M., Cousens, R.D. and Woods, J.L.D. 2019. Patterns of early-colonising species on eroding to prograding coasts; implications for foredune plant communities on retreating coastlines. Geomorphology 327: 404–416 </ref>), but rapidly retreating coasts do not display the typical vegetation community succession patterns (Bitton and Hesp, 2013<ref> Bitton, M. and Hesp, P.A. 2013. Vegetation dynamics on eroding to accreting beach-foredune systems, Florida Panhandle. Earth Surface Processes and Landforms 38: 1472-1480</ref>), and on some eroding coasts the final successional vegetation community may be adjacent to the shoreline.
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− | ==Adaptations==
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− | In order to withstand the harsh conditions prevailing on the open shore, species have developed several specific physiological traits. Typical are the following adaptations (Hesp, 1991<ref>Hesp, P.A. 1991. Ecological processes and plant adaptations on coastal dunes. Journal of Arid Environments 21: 165-191</ref>; Du and Hesp, in press<ref>Du and Hesp (in press)</ref>).
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− | *to salinity and salt spray: succulence, leaf wax, thick cuticles, osmotic adaptation and glands that exude salt;
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− | *to drought: succulence, hairy leaves, leave rolling, uptake of dew, roots that reach to the water table and stomata that can be closed;
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− | *to sand burial: increased development of roots, rhizomes, stolons and shoots, increased seed production, germination strategy; survivorship of seedlings and adult plants under sand burial is a major selective force in the evolution of dune vegetation (Maun, 1998<ref>Maun, M.A. 1998. Adaptations of plants to burial in coastal sand dunes. Canadian Journal of Botany 76: 713–738. doi: 10.1139/b98-058</ref>).
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− | *to nutrient deficiency: root nodules that produce nitrogen compounds, uptake of P and N from rhizosphere bacteria and fungal activity in the soil;
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− | *to washing away by [[Swash zone|swash]]: rapid recolonization through efficient dispersal of seeds by wind and currents, germination of seeds delayed until conditions are favorable (dormancy).
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− | All species that thrive on the backshore have at least some of these adaptations. However, some species are better adapted than others. When species are displaced from their regions of origin to other regions, native species can be outcompeted. This has consequences for the biodiversity as well as for the morphology of the dune landscape (Wiedemann et al., 2003<ref name=WP>Wiedemann, A.M. and Pickart, A.J. 2003. Temperate Zone Coastal Dunes. In: (Eds. Martínez M. L. and Psuty N. P.) Coastal Dunes; Ecology and Conservation. Springer</ref>; Doody, 2013<ref name=D>Doody, J.P. 2013. Sand Dune Conservation, Management and Restoration. Coastal Research Library, Vol. 4, Springer, 303 pages.</ref>; Hilton et al., 2009<ref>Hilton, M.J., Woodley, D., Sweeney, C., Konlechner, T. 2009. The development of a prograded foredune barrier following Ammophila arenaria eradication, Doughboy Bay, Stewart Island. Journal of Coastal Research SI 56: 317–321</ref>).
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− | ==Habitats==
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− | [[Image:BeachZones.jpg|thumb|left|300px|Fig. 1. Beach areas that alternately accrete and erode under the influence of waves.]]
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− | The exchange of sand between sea and land takes place in the shore zone above the mean HW line up to the foredune that is attacked by waves under heavy storm conditions. Most important for shore protection are therefore species that bind and accumulate sand in this zone; and the corresponding habitats are defined in the European Habitats Directive (Natura2000) as (see Fig. 1):
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− | # Annual vegetation of drift lines (1210)
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− | # Embryonic shifting dunes (2110)
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− | # Shifting dunes along the shoreline with ''Ammophila arenaria'' (2120)
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− | The latter zone is often designated as 'foredune zone', 'yellow dunes' or 'white dunes'. An overview of common species occurring in these habitats is presented in Table 1. Only species with a sand-binding or dune-building function are considered.
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− | ===Drift-line zone===
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− | The drift line is the location where floating debris and wrack is deposited by waves running up the beach. In reality it is not a line but a zone around the maximum [[wave run-up]]. Most of the species in this zone are so-called pioneers. In fact, they are not really the primary colonizers, because their settlement is facilitated by micro-organisms and fungi, who aggregate sand particles in small clumps in which moist and nutrients are incorporated<ref name=MD></ref>. Symbiose of plant roots with
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− | vesicular–arbuscular mychorrhizal fungi is crucial to the development of pioneer species (Maun, 1994<ref>Maun, M.A. 1994. Adaptations enhancing survival and establishment of seedlings on coastal dune systems. Vegetatio 111: 59–70</ref>). A special adaptation of drift-line species is their ability to feed on material - litter and wrack - washed ashore by waves. Plants are adapted to the high mobility of the substrate by an extensive root system. However, they generally do not resist storm waves and are therefore short living. Survival of the species is ensured by growing above the high spring tide line on the highest portion of the backshore, a high production rate, and efficient spreading and germination of seeds. Listed species (Table 1) commonly found in different parts of the world near the drift line include the genera: ''Cakile'', ''Honckenya'', ''Salsola'', ''Sevusium'', ''Spinifex'', ''Uniola'' , ''Panicum'', ''Calystegia'', ''Canavalia'', ''Atriplex'', ''Medicago'', ''Scaevola'', ''Carex'', ''Glaucum'', ''Eryngium'', ''Ipomoea'', ''Thinopyrum'', ''Traganum'', ''Elymus''.
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− | ===Embryo-dune zone===
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− | Dune formation starts high up on the dry beach or upper backshore. The development of embryo dunes (also known as incipient foredunes) is mainly due to plants with erect stems that are capable of capturing sand that is blown by the wind over the beach. Most of these plants are grasses such as ''Elymus'', ''Leymus'', ''Ammophilla'' (in cold/temperate climates), ''Spinifex'', ''Uniola'', ''Panicum'', ''Carex'' (in warm climates). ''Elymus'', ''Leymus'' and ''Spinifex'' are primary colonizers, whose growth is stimulated by sand burial. They are partially replaced by species that colonize the area after the development of an initial dune. Dune formation is also initiated by plants such as ''Acacia'', ''Tamarix'', ''Atriplex'' and ''Traganum'' (warm to hot, and arid climates). Note that dunes also occur on the margins of lakes and ponds, and so Willows and other species may constitute the pioneer species on lake margins where the adjacent water body comprises fresh water (e.g. for the Great Lakes<ref name=DA/>). Embryo dunes are further stabilized and developed by smaller plants that form dense communities. Species of the genera ''Honckenya'', ''Sporobulus'', ''Anthemis'', ''Carpobrotus'', ''Medicago'', ''Eryngium'', ''Zygophyllum'' may be widespread on embryo dunes.
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− | ===Foredune zone===
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− | The foredunes (a.k.a. 'established foredunes'; Hesp and Smyth, 2019<ref> Hesp, P.A. and Smyth, T.A.G. 2019. Anchored Dunes. In: I. Livingstone and A. Warren (Eds.), Aeolian Geomorphology: A New Introduction: 157-178. Wiley Blackwell</ref>) of non-vegetated coasts generally have a gentle slope, while vegetated coasts have a steeper foredune slope<ref name=MD></ref>. This holds in particular for dunes vegetated with ''Ammophila'', which is a very effective sand binder and dune builder that prevents downslope sand transport even on steep slopes. ''Ammophila arenaria'' and ''Ammophila breviligulata'' are European and American beach grasses that have been introduced in many regions worldwide. In some regions, ''Ammophila arenaria'' can be an aggressive invader, for example in California, where it replaces the native foredune vegetation, greatly reducing species diversity (Barbour and Johnson, 1977<ref>Barbour, M., and Johnson, A.F. 1977. Beach and dune. In Barbour, M. and J. Major (eds.), Terrestrial vegetation of California. John Wiley and Sons, New York. Pages 223-270</ref>). Many other species also contribute to the stabilization and further development of foredunes by forming a dense vegetation cover. Sand-binding species common to foredunes in several regions around the world include the genera: ''Eryngium'', ''Euphorbia'', ''Carpobrotus'', ''Calystegia'', ''Acacia'', ''Westringia'', ''Oenothera'', ''Anthemis'', ''Ficinia'', ''Paspalum'', ''Casuarina'', ''Medicago'', ''Zygophyllum''.
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− | ===Muddy shores===
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− | In temperate climate zones, muddy shores occur mainly in sheltered areas within bays, lagoons and estuaries. The dominant vegetation species are ''Sporobulus'' and ''Spartina'', which stabilize mudflats and contribute to their transformation into salt marshes, see [[Dynamics, threats and management of salt marshes]]. In subtropical and tropical climate zones, muddy shores occur also on the open ocean. An important coastal protection function is accomplished by mangroves that attenuate waves and currents and favor sedimentation, see [[Mangroves]]. Protection against erosion by waves and currents can also be provided by ''Chrysopogon'' (Vertiver grass), that binds soil with very large deep roots. Vertiver grass is planted in many subtropical and tropical countries along water courses for the protection of shore and river banks.
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− | ==Climate zones==
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− | [[Image:WorldDuneDistribution.jpg|thumb|600px|center|Fig. 2. World distribution of coastal dunes. Adapted from Martinez et al. (2003)<ref>Martínez, M.L., Psuty, N.P. and Lubke, R.A. 2003. A Perspective on Coastal Dunes. In: (Eds. Martínez M. L. and Psuty N. P.) Coastal Dunes; Ecology and Conservation. Springer</ref>]]
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− | Dune coasts are present along coasts worldwide, in all climate zones, see Fig. 2. Each climate zone has its own typical vegetation. Some vegetation species have a wide climate tolerance, but species that are specifically adapted to certain climate conditions generally prevail (Doing, 1985<ref>Doing, H. 1985. Coastal fore-dune zonation and succession in various parts of the world. Vegetatio 61: 65-75</ref>). Species that thrive under a broad range of conditions are species of the genera ''Ammophila'', ''Cakile'', ''Arctotheca'', ''Salsola'', ''Calistegia''. In temperate and Mediterranean climates the dominant dune-building species is ''Ammophila arenaria'' (marram grass); a similar species exists in N. America, ''Ammophila breviligulata''. In warmer climate zones (southern US, Mexico, Caribbean) ''A. Brevigulata'' is replaced by ''Uniola paniculata''. In colder climates ''A. arenaria'' is replaced by ''Elymus farctus'' and ''Leymus arenarius''. The major dune-building species in East Asia is ''Carex kobomigi'', which has become an invasive species in the US, and in the Australasian region ''Spinifex'' is the dominant pioneer species, although this is replaced by ''Canavalia'' and ''Ipomoea'' in more tropical regions, and in Asia.
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− | In temperate climatic zones, wind and sand-catching grasses produce dunes with a stronger relief than dunes in warm climatic zones. On subtropical and tropical sandy coasts ''Spinifex littoreus'' and ''Scaevola plumieri'' contribute to dune-building, but creeping vegetation of the genera ''Ipomoea'' and ''Canavalia'' is often dominant in more tropical areas (Hesp, 2003<ref>Hesp, P.A. 2003. Coastal Dunes in the Tropics and Temperate Regions: Location, Formation, Morphology and Vegetation Processes. In: (Eds. Martínez M. L. and Psuty N. P.) Coastal Dunes; Ecology and Conservation. Springer</ref>).
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− | In arid climates, ''Tamarix'' and ''Traganum'' can stabilize shifting sands and create hummocky dunes, called nebkhas (Hernandez-Cordero et al., 2018<ref name=H18>Hernandez‐Cordero, A. I., Hernandez‐Calvento, L., Hesp, P. A. and Perez‐Chacon, E. 2018. Geomorphological changes in an arid transgressive coastal dune field due to natural processes and human impacts. Earth Surface Processes and Landforms, 43: 2167-2180</ref>).
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− | ==Dune management==
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− | Along many shores, dunes have a crucial function for protecting coastal settlements (or the low-lying hinterland) from flooding in case of extreme storm surges. If this protection is not sufficient, hard protection structures can be necessary to raise the protection function to the required level. However, hard protection structures modify the sand distribution along the coast, creating or aggravating erosion (see for example [[Human causes of coastal erosion]] and other Coastal Wiki articles on hard structures). Artificial sand nourishment avoids this problem, but is often a costly solution. Another option is to strengthen a coastal-defense dune through the incorporation of a hard concrete or rocky core (Oderiz et al., 2020<ref> Oderiz, I., Knochelmann, N., Silva, R., Feagin, R.A., Martínez, M.L. and Mendoza, E. 2020. Reinforcement of vegetated and unvegetated dunes by a rocky core: A viable alternative for dissipating waves and providing protection? Coastal Engineering 158, 103675</ref>). The need for engineering interventions can be reduced – generally not excluded, however – by stimulating natural dune building processes. This can be done with sand-trapping fences; fences stimulate dune growth in height, but not necessarily in volume (Nordstrom et al., 2012<ref> Nordstrom, K.A., Jackson, N.L., Freestone, A.L., Korotky, K.H. and Puleo, J.A. 2012. Effects of beach raking and sand fences on dune dimensions and morphology. Geomorphology 179: 106–115</ref>; Li and Sherman, 2015<ref> Li, B. and Sherman, D. J. 2015. Aerodynamics and morphodynamics of sand fences: A review. Aeolian Research 17: 33-48</ref>). Compared to other options, dune reinforcement by stimulating natural vegetation growth or planting has many advantages: it is relatively inexpensive to implement and maintain, it offers the best resilience and it strengthens natural and scenic values, and ecosystem functioning<ref name=F></ref>.
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− | Lack of understanding - why certain species may or may not prosper under existing conditions - is an important issue in dune vegetation programs. It is most naturel to use native species in coastal vegetation (or revegetation) programs, and in some countries (EU, US) there are legal regulations in this regard. However, more effective dune-building species might be wanted in some cases (more effective in terms of sand fixation, dune-building, soil improvement, adaptation to local conditions, etc.). Introducing non-native species has not always been successful; in some cases the species did not thrive and in some other cases the species propagation became invasive and altered the entire dune flora (e.g. ''Ammophila'' introduction in California and New Zealand; Thinopyrum introduction in South Australia; ''Acacia'' introduction in South Africa <ref name=WP></ref>. The success of vegetation programs using native species is equally uncertain (Hanley et al., 2014<ref> Hanley, M.E., Hoggart, S.P.G., Simmonds, D.J., Bichot, A., Colangelo, M.A., Bozzeda, F., Heurtefeux, H., Ondiviela, B., Ostrowski, R., Recio, M., Trude, R., Zawadzka-Kahlau, E. and Thompson, R.C. 2014. Shifting sands? Coastal protection by sand banks, beaches, and dunes. Coast. Eng. 87: 136–146</ref>). Before introduction, one should find out why the species is not there yet and remove any obstacles that may be responsible for this. Experimental testing should be part of the vegetation programs. In general, introduction of a new species should be avoided.
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− | The causes for the degradation of dune vegetation are multiple. Common causes are<ref name=D> </ref>:
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− | * loss of dune surface area (urbanization, conversion to agriculture, shoreline retreat);
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− | * soil degradation (water extraction and eutrophication, mainly through atmospheric deposition of nitrogen);
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− | * disturbance (trampling by visitors, sand mining).
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− | Examples are given in the articles on sand dunes in European countries, see [[:Category:Sand dunes]].
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− | In several countries (European Union, some states in the US) legal prescriptions have been issued for the protection of dune ecosystems. Many other countries have defined setback areas (see [[Setback area]]), but enforcement is often inadequate. Monitoring the status of the dune vegetation is essential to detect deterioration in time, to find out what the causes are and to take adequate dune management measures.
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− | {| style="border-collapse:collapse;background:ivory;" cellpadding=5px align=center width=100%
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− | |+ '''Table: Properties of shore-protecting plants.'''
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− | |- style="font-weight:bold; font-size: 12px; text-align:center; background:lightblue"
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− | ! width="12.5% style=" border:1px solid blue;"| Name (popular name)
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− | ! width="15% style=" border:1px solid blue;"| Shore protection
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− | ! width="11.5% style=" border:1px solid blue;"| Regions
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− | ! width="11.5 % style=" border:1px solid blue;"| Environmental conditions
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− | ! width="12% style=" border:1px solid blue;"| Soil type
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− | ! width="12% style=" border:1px solid blue;"| Propagation
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− | ! width="13% style=" border:1px solid blue;"| Planting
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− | ! width="12.5% style=" border:1px solid blue;"| Other properties
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Acacia longifolia subsp. sophorae'' (Coastal Wattle) [[Image:AcaciaLongifoliaSophorae.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pioneer species in coastal sand dunes. Shrub, 0.5-3 m tall, 10-15 m wide.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to South Australia. Introduced to New Zealand, South Africa, Spain and Portugal.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Salt tolerant.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Various types of mobile sandy soils.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By seeds or vegetatively (branches root when touching the ground).
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Can be established from seedlings or by direct seeding (pre-soaked for 12 hours in warm water).
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Fixes nitrogen. Most Acacia plants die after 8-10 years. Aggressive invasive species, alters indigenous vegetation.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Ammophila arenaria'' (Marram grass, European beach grass) [[Image:AmmophilaArenaria.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pioneer species with great sand-binding and sand-trapping capacity. Initiates foredune growth on flat beaches. Roots extend one to several meters deep. Stimulates the development of high/steep foredunes vulnerable to erosion and blow-outs.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to southern/western Europe. Introduced: N. America, S. Africa and Australia. A similar species ''Ammophila breviligulata'' (American beach grass) is native to N. America.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Resistant to frost and temperatures up to 50ºC. Tolerates moderate salt spray, drought and low water table.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Well-drained, poor, mobile sandy soils, calcareous preferred. Growth stimulated by sand burial (<1 m/year). Declines in absence of new sand supply.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Rhizomes spreading horizontally and vertically.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Seedlings in dry sand with moist at about 10 cm below surface. Minimum planting depth about 30 cm. Period: late fall, winter, and early spring months; temperature between 0 and 15 ºC.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Invasive species in some countries where it inhibits growth of native plants. Fixes nitrogen. In stabilized dunes, Ammophila is replaced by other species, such as Festuca rubra (red fescue grass).
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Anthemis maritima'' (Seaside Chamomile) [[Image:AnthemisMaritima.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pioneer species that contributes to stabilization of mobile dunes, adapted to resist damage from wind-blown sand.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to the Mediterranean region, distributed to southwest Asia and W. Africa.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sunny exposure, salt tolerant.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Lives generally on alkaline well-drained nutrient-poor beach sand, occasionally on sea cliffs and shingle beaches.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Self-pollinating plant. Seeds fall close to the mother plant.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Extraction of essential oil for aromatic and medicinal use.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Arctotheca populifolia'' (Beach Daisy) [[Image:ArctothecaPopulifolia.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pioneer species of beach and dunes. Highly effective sand binder that forms hummocks ("nabkha's") by collecting wind-blown sand around it. Often associated with ''Gazania rigens''.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to South Africa. Introduced to Australia. Similar species ''A. calendula'' introduced in southwestern Europe.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Mediterranean climate, salt tolerant.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Bare sand; variety of soils.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Seeds can be wind-dispersed and also spread by ocean currents.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | From seeds or from soft-tip cuttings made in spring and during the growing season.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | As an invasive species in Australia, it competes with native plants such as "Spinifex sericeus", by binding sand more efficiently.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Cakile Maritima'' (Searocket) [[Image:CakileMaritima.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pioneer species settling close to the high-water line. Forms low erosion-sensitive hummocky dunes. Single or clumped plants accumulate sand and add organic matter to the soil, thus providing more amenable habitats for the establishment of secondary colonizers.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Cakile maritima'' native to Europe and N. Africa. Introduced in Australia, New Zealand, Japan. ''Cakile edentula'' native to USA.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Resistance to salt spray.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Grows best on moist or wet beaches, alkaline preferred.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Species with seed dormancy. Efficient settling of seedlings, rapid growth, ability to flower under a range of photoperiods. Large numbers of fruits, short life cycle. Seeds can be dispersed by currents.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By seeding or by cuttings.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Invasive species. The plants are sensitive to fungi and are consumed by a variety of phytophagous insects and vertebrates; in response, ''Cakile'' manufactures glucosinolates that provides some protection.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Calystegia soldanella'' (Beach Morning Glory, shore bindweed) [[Image:CalystegiaSoldanella.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sand-binding pioneer species with a wide-spreading, branching rhizomatous rootstock. Adapted to sand drift, developing best on a buried flood mark and resistant to incidental saltwater flooding
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | China, Korea, Russia, Africa, Asia, Australia, Europe, North America, Pacific Islands, South America.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tolerant to salt spray, sand burial and droughty conditions. Sunny exposure, sensitive to frost.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Along sandy shorelines, also in shell banks, fine gravel or pumice. The plant prefers well-drained light moist soils.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Flowers are pollinated by insects; the plant produces large seeds that can be dispersed by seawater.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | From seed or rooted plant fragments.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Canavalia maritima'' (Sea Bean) [[Image:CanavaliaMaritima.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Spontaneous sand binder on beaches, cliffs, and dunes. Climber plant that creeps over other coastal plants. Bacteria that form nodules on the roots fix atmospheric nitrogen, made available also to other plants.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | South Atlantic and Gulf coast US, Mexico, West Indies, Central America, South America, and the South Asia.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tropics and subtropics.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Dry well-drained nutrient-poor sandy soils, highly salt tolerant.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Seeds can float considerable distances in the sea, thereby explaining the plants wide distribution. Can also root from nodes at the stems.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Can be grown from seed (soaked in water for several hours to speed up germination.)
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Used as drug.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |''Carex kobomugi'' (Asiatic Sand Sedge) <ref>Lea, C. 2005. Fact sheet: asiatic sand sedge. National Park Service, Washington, DC https://www.invasive.org/alien/fact/pdf/cako1.pdf</ref> [[Image:CarexKobomugi.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Dune-stabilizing species, found on the upper parts of ocean beaches, on primary dunes, back-dunes, inter-swale areas. Sand burial stimulates the growth of rhizomes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to China, Japan, Korea, Taiwan. Introduced in northeastern USA.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Temperate climate: Warm average temp. > 10°C, Cold average temp. > 0°C. Wet or dry summer. Grows in semi-shade (light woodland) or full sun. Tolerates maritime exposure.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | All types of soil, with preference for moist or wet soil.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Spreads primarily by vegetative means, through production of rhizomes. Long-distance dispersal of salt-tolerant seeds or plant fragments by ocean currents
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Replanting of large clumps. Seed-sow in situ in the spring in a moist soil in light shade.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Invasive species, prohibited in several US states.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Carex pumila'' (Dwarf Sand Sedge) <ref>de Lange, P.J. 2020. Carex pumila Fact Sheet. New Zealand Plant Conservation Network. https://www.nzpcn.org.nz/flora/species/carex-pumila/</ref> [[Image:CarexPumila.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sand-binding species of the foreshore, cliff base or sea inlets <ref>Jung, S.H., Kim, A.R., Lim, B.S., Seol, J.W. and Lee, C.S. 2019. Spatial distribution of vegetation along the environmental gradient on the coastal cliff and plateau of Janggi peninsula (Homigot), southeastern Korea. J. Ecology and Environment 43: 14 https://doi.org/10.1186/s41610-019-0110-y</ref>.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Australia, New Zealand, Chile, China, Japan and Korea.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Full sun, salt tolerant.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | All types of freely draining sandy or gravely soils.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By rhizomes. It often regenerates naturally from seed spread by freshwater.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sand sedge can be easily grown from seed and planted along the toe of foredunes near stream mouths.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Carpobrotus glaucescens'' (Pigface) [[Image:CarpobrotusGlaucescens.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pioneer species growing on the front of sand dunes. Sandbinder allowing more effective sand-trapping species (e.g. ''Spinifex'') to take a hold. If covered with sand the plant can survive, growing upwards and producing a new plant mat over the old one.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to Australia. Similar species ''C. edulis'' and ''C. virescens'' are native to S. Africa and distributed to other continents.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Mediterranean climate. Sunny or semi-shade exposure. Can tolerate drought. Is able to withstand salt spray, strong winds and sand blast.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Any well-drained light (sandy) or medium (loamy) soils.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | The species is hermaphrodite (has both male and female organs). Propagates by seeds and by roots that develop at nodes along the stems.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Can be grown either from seed or from cuttings.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Casuarina equisetifolia'' (Australian pine tree, Filao) [[Image:CasuarinaEquisetifolia.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tree, stabilizer of upper beach and coastal sand dunes, by forming dense stands on coastal foreshores.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | The native range extends throughout Southeast Asia, Northern Australia and the Pacific Islands. Introduced to the southern USA, West and South Africa, India, southern China and Brazil.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tropical (subtropical) climate. Tolerant to extreme environmental conditions such as drought, low nutrient availability, salt and salt spray and burial by sand.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tolerates calcareous soils, drought, granitic soils, poor soil and waterlogging.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Casuarina'' propagates naturally by seed.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By direct seeding or with seedlings elevated in a nursery. Can also be propagated vegetatively by cuttings (shoots).
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Highly competent invader; colonizes newly disturbed and nutrient-poor sites because of their high fecundity, protracted reproductive season, wide seed dispersal, and tendency to form monospecific stands. Fire-sensitive.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Chrysopogon zizanioides'' (also ''Vetiveria zizanioides'', Vertiver grass) [[Image:ChrysopogonZizanioides.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Plants used to stabilize stream banks and to provide protection against erosion by currents and waves. Also used to block water runoff, to increase water infiltration. Vertiver stimulates sediment deposition; as silt builds up behind a vetiver plant new roots grow out of buried nodes to match the new level of the soil surface.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Origin: South India. Distributed to tropical countries around the world.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tropical, subtropical climate. Full sun exposure. Temperature in the range -15 ºC to +55 ºC; optimum growth at 25 ºC. Medium to high annual precipitation. Salt tolerant.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Wet sandy loam soils preferred. Drought tolerant due its deep roots (3-4 m). Accepts large range of soil pH.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Neither stolons nor rhizomes. Propagated by clump subdivision.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Soil stabilization by planting one or several hedgerows, forming a long-lasting terrace where sediment is trapped. Low-cost, labor-intensive technique for civil works protection, claimed to have a high benefit/cost ratio.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Non-fertile, non-invasive. Not strongly affected by pests and diseases, not acting as host for pests or diseases that might attack crop or garden plants. The roots are used for many purposes. Vertiver oil is used in oriental fragrances.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Elymus farctus'' subsp. boreoatlantica / ''Elytrigia juncea'' / ''Agropyron junceum'' (Sand Couch-grass) [[Image:ElymusFarctus.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sand-trapping pioneer species; initiates the formation of embryo dunes but rarely a new dune ridge. Can accommodate considerable ongoing accretion by upward grow; partial recovery after temporary burying<ref>Harris, D and Davy, A.J. 1986. Strandline colonization by Elymus farctus in relation to sand mobility and rabbit grazing. Journal of Ecology 74: 1045-1056 </ref>.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to Northern and Western Europe and temperate Asia. The closely related species ''Thinopyrum junceiforme'' was introduced to Australia.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Cold and temperate climate.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Grows on low embryo dunes (less frequently on white dunes), on a sandy substrate which is rich in chlorides, with a neutral or alkaline pH.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By seeds and by rhizomes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Suffers from recreational use of beaches.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Eryngium maritimum'' (Sea Holly) <ref> Isermann, M. and Rooney, P. 2014. Biological Flora of the British Isles: Eryngium maritimum. Journal of Ecology 102: 789–821</ref> [[Image:EryngiumMaritimum.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pioneer species of the upper beach, growing on low mobile dunes and binding sand with roots up to 5 m long. High sand accumulation (> 0.2 m/year) is unfavorable for development. Grows typically on sand and shingle beaches, foredunes and yellow dunes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to Europe and adjacent parts of northern Africa and Middle East (shores of the Atlantic Ocean, the Baltic, the Mediterranean, and Black and Azov Seas). Introduced into parts of eastern North America and to Australia.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Mediterranean–
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− | Atlantic climate, mild winters. Grows on open spaces in full sun.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Well-drained poor sandy soil (low silt/clay content), slightly enriched with nutrients from sea spray, carbonates from shells and material blown from the driftline.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Vegetative reproduction by offshoots from rhizomes or root fragments, dispersed by the sea over short-distances. In Mediterranean regions, reproduction mainly through seeds.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Vegetative reproduction is used in horticulture, where root cuttings are taken in winter.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Eryngium maritimum'' is unable to withstand competition from faster and more densely growing plant species (e.g., ''Carex arenaria'') and suffers from recreational use of beaches.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Euphorbia paralias'' (Sea Spurge) [[Image:EuphorbiaParalias.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Highly efficient sand binder anchored by a deep taproot with several lateral roots. Colonizes bare sand and native dune vegetation, from the high water mark into the dunes, grows through accumulating sand on beach fronts. Also found on rocky foreshores, steep back dunes and mouths of coastal lakes and estuaries.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to many countries of Europe, northern Africa, and western Asia. Introduced to Australia.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Temperate and semi-arid regions. Sunny exposure. Tolerant to salt and drought.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Bare, well-drained organic-poor sandy soil. Withstands moderate burial.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Produces large numbers of buoyant salt-tolerant seeds which survive a number of years dispersed on ocean currents. Spreads rapidly once established. Propagation also by root fragments.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Invasive environmental weed in Australia, reducing floral and structural diversity. Toxic: sap in the leaves and stem is irritant and posionous. ''Euphorbia terracina'' has characteristics similar to "E. paralias".
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Ficinia spiralis'' / ''Desmoschoenus spiralis'' (Pingao, Golden Sand Sedge) [[Image:FiciniaSpiralis.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Good sand-binding properties, grows best in the mobile sand at the front of the dune. Partial sand trapping due to the density of its foliage and morphology. Creates active sand dunes (allowing some sand movement).
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | New Zealand.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Salt tolerant.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Moderate sand movement promotes growth, excessive accumulation or erosion causes dieback. Well-established stands can be excavated by high persistent winds and may die back leaving exposed rhizomes and roots.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By stolons and seeds.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Can be reproduced from seeds or vegetatively from stolons.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Suffers from competition with introduced marram grass and animal grazing. Leaves are used as weaving material.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Honckenya peploides'' (Sea Wort grass) [[Image:HonckenyaPeploides.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Coastal pioneer plant and sand binder, close to the tidemark and on embryo dunes. Forms mats on sand beaches and gravel beaches. Long-branched rootstocks grow quickly under the sand; finely-branched shoot roots anchor the plant firmly in the sand. A plant that is buried in a storm can send new shoots back up to the surface without having to produce new shoots.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Coasts of temperate and arctic regions of Eurasia, including Britain, and N. America.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sunny, maritime exposure. Tolerant to frost and to short periods of immersion in salt water.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Light (sandy) and medium (loamy) well-drained dry or moist soils, can grow in nutritionally poor soil. Suitable pH: acid, neutral and basic (alkaline) soils.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Hermaphrodite species, pollinated by insects, wind and wind-blown sand. The plant is self-fertile.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | The rootstock produces an abundance of buds from which new shoots grow.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sea sandwort stabilizes and fertilizes the land, thereby helping more demanding sea-shore plants. In time it changes the conditions in a way that it eventually finds itself in retreat from the ever-increasing competition.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Ipomoea imperati'' (Beach Morningglory, Fiddle-leaf Morningglory) [[Image:IpomoeaImperati.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Colonizer species on the frontal dunes; binds shifting sands by forming mats. Used for dune restoration. ''Ipomoea pes-caprae'' has similar characteristics.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Ipomoea imperati'' occurs on all continents. ''Ipomoea pes-caprae'' is a common species of coasts around the Indian ocean.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tropical and subtropical regions. Drought and salt water tolerant; cannot withstand frequent inundations.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Moist, well-drained, nutrient-poor sandy soils, without humus. Grows in unconsolidated substrate (upper beach), also on the high marsh.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Rapid propagation with vines that spread up to 10 m and roots at the nodes (points where leaves arise). Seed dispersal by flowing in seawater.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Growth from cuttings. Seeds of railroad vine are physically dormant and must be scarified in order to germinate.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Leymus arenarius'' (Sand Ryegrass, Sea Lyme grass, Lyme grass) <ref>Greipsson, S. and Davy, A.J. 1994. Leymus arenarius. Characteristics and uses of a dune-building grass. Icel. Agr. Sci. 8: 41–50</ref> [[Image:LeymusArenarius.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pioneer species on beach, embryo dunes and foredunes; dune-building grass, stabilizing drifting sands and eroding fronts. Thrives on sand deposition; replaced by other species when sand deposition ceases. Strong similarities with ''Elymus farctus''.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to the coasts of northern and western Europe and Iceland. Closely related to ''Leymus mollis'' of the northern coasts of North America.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Prefers cool climate but tolerant of hot weather. Highly salt tolerant. Sunny exposure or half-shade.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Grows on low embryo dunes, on a sandy substrate , loam (silt) or clay.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By rhizomes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sowing of seeds in sheltered fertilized areas.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Takes up nitrogen into its root system. Changes soil conditions and microclimate, which become more suitable for later successional species. Invasive species in some countries.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Medicago marina'' (Coastal Medick, Sea Medick)<ref> Small, E. 2011. Alfalfa and relatives: evolution and classification of "Medicago". NRC Research Press, Ottawa, 727 pp.</ref> [[Image:MedicagoMarina.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sand-binding pioneer species with an extensive root system that settles in loose sand close to the sea.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to the Mediterranean region, distributed worldwide.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sunny exposure. Is tolerant of wind and salt spray and can survive severe drought.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | It will grow on most soils, even very poor and polluted soil.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Propagation by rhizomes . Self- and cross-pollinating plant. Seeds fall close to the mother plant; dispersal by wind.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | The roots have nodules containing bacteria that fix nitrogen, available also to other plants that contribute to further dune stabilization. Essential oil is extracted from the dried aerial parts of ''M. marina''.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Oenothera drummondii'' (Beach Evening Primrose) [[Image:OenotheraDrummondii.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | Mat-forming sand stabilizer that appears after the primary colonizers. It can grow in drifting sand, but also in (semi-)stabilized dunes and on rock cliffs.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to northern Mexico and southern USA. Introduced to Australia, New Zealand, South Africa, China, Egypt, Spain.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Mediterranean climate, sunny exposure. Adapted to moderate salinity and sand movement.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Prefers well-drained slightly moist neutral soil, but can cope with dry conditions due to efficient water use.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Spreads readily by seed into dune areas.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | From seed or by root division.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Medicinal use for treating sore throat and eye diseases.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Panicum amarum'' (Bitter Panicum, Coastal Panicgrass) [[Image:PanicumAmarum.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Stabilizer of semi-mobile dunes. Extensive fibrous root and rhizome system holds the sand in place.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | USA South Atlantic and Gulf coast.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Mediterranean climate. Tolerates moderate saline overspray.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Well-drained poor sandy soil. Strongest growth with moderate sand accumulation around the plants. Replaces ''Ammophila'' in warmer regions.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By stolons or rhizomes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Planting of young tillers, with some roots and rhizomes attached, preferably early spring. Should be mixed with other grasses, e.g. American beachgrass and sea oats.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Paspalum vaginatum'' (Seashore Paspalum) [[Image:PaspalumVaginatum.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Excellent shoreline protector; spreads rapidly, forming dense stands that anchor soil particles and dissipate wave energy. Less suited for dune building.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Origin: Americas. Worldwide occurrence.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tropical and subtropical zones. Tolerance of a wide range of conditions such as drought, saline or recycled water, varying soil pH, extended periods of low light intensity, flooding or extended wet periods.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Best suited to compacted inorganic marsh soils of moderate salinity.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Spreads by its rhizomes and stolons, forming a thick turf.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Nursery-raised plants or vegetatively; on drier sites, pieces of sod or rooted transplants should be used. Bare-rooted rhizomes can be used on wetter sites. It can be planted and grow where other species would not survive.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Good resistance to insects and diseases.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Poa macrantha'' (Dune Bluegrass, Seashore Bluegrass<ref>Oakes, A.J. 1990. Ornamental grasses and grasslike plants. Van Nostrand Reinhold publ., New York</ref>) [[Image:PoaMacrantha.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sand-binding grass, with stolons and an extensive, strong rhizomatous root system. Stabilizes blowing and moving sand of foredunes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pacific coast of N. America from Alaska to California. Similar species: ''Poa douglasii'' in southern California and ''Poa billardierei'' (Sand tussock) in New Zealand.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Temperate climate. Sunny exposure.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Well drained sand soil.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By seeds and rhizomes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Nursery-raised plants from locally collected seed, also by division of plants.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Salsola kali'' (Common Saltwort) [[Image:SalsolaKali.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pioneer species in the driftline and upper-beach zones. Roots, rhizomes and buried shoots reduce dune erosion under a swash regime<ref>De Battisti, D, and Griffin, J.N. 2020. Below-ground biomass of plants, with a key contribution of buried shoots, increases foredune resistance to wave swash. Ann Bot. 125: 325-334. doi: 10.1093/aob/mcz125</ref>.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to northern and western Europe, from Norway to Portugal, including northern Russia. Introduced to America, Australia and New Zealand.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''S. kali'' habitats include cool, temperate, desert, steppe, subtropical, arid life zones. It tolerates a very high range of annual rainfall and annual temperatures and saline soils<ref> CABI. Invasive Species Compendium, https://www.cabi.org/isc/datasheet/50297</ref>.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Organic-poor soils. Found in disturbed areas, including shingle and sand beaches.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Self-seeding annual plant; seeds remain viable for 6-12 months and are dispersed by wind, small rodents and birds.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Invasive species; where introduced it displaces native plants and competes for space, water and nutrients.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Scaevola plumieri'' / ''Scaevola taccada'' <ref>CABI 2019. Invasive Species Compendium. www.cabi.org/isc/datasheet/48817</ref> [[Image:ScaevolaPlumieri.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sand-binding pioneer plant on beaches (preference for coral sand), sand dunes, sandbanks, tropical atolls, mangroves and seagrape habitats. Tolerates sand burial and contributes to dune building. ''S. plumieri'' and ''S. taccada'' are similar species.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Scaevola taccada'' native to South Asia, East Africa, Pacific islands; ''Scaevola plumieri'' native to East and South Africa, Ceylon. Introduced to (sub)tropical America south of Florida.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | (Sub)tropical monsoon climate. Grows within in the salt spray area.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Well-drained light/medium shallow sandy soils, seasonally waterlogged. Alkaline/neutral pH.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Fast dispersal along the coast line, canal banks, mangroves, and inland shorelines by fruits that can float for up to one year. Plant fragments or stems may be dispersed on vegetation rafts.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | The species also grows from cuttings.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center'' | Invasive species in Florida and Caribbean region. Occurs often together with ''Ipomoea''.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Sesuvium postulacastrum''
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− | (Shoreline Purslane) [[Image:SesuviumPostulacastrum.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pioneer sand-colonising plant that grows on the upper beach and seaward slope of the frontal dune or beach ridge. It traps and holds wind-blown sand and tends to form small ridges or mounds. It does not survive complete burial under wind-blown sand. It also grows well in more protected littoral locations.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Native to Africa, Asia, Australia, North America and South America.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Worldwide in tropical and subtropical regions. Full sun exposure, very tolerant of salty conditions and very drought tolerant (established plants).
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Well-drained poor sandy soil, sandy clay, coastal limestone and sandstone, tidal flats and salt marshes The plant tolerates acidic and alkaline soils. No irrigation or fertilizer needed.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | The thick stems form roots at the nodes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | From herbaceous stem cuttings.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Was used medicinally to treat scurvy (vitamin C deficiency) and is sold in Asia as a vegetable. Also used for desalination and phytoremediation (soil cleaning by bioaccumulation of toxic substances).
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Spinifex sericeus'' / ''Spinifex littoreus'' [[Image:SpinifexSericeus.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Pioneer species, highly efficient deep-rooting foredune builder. The upright shoots aid in reducing surface wind velocity and accumulating sand with frequent burial of stems and leaves. A spinifex-dominant dune has typically a low-angle dune face without blow-outs.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | "Spinifex sericeus": Australia, New Zealand. "Spinifex littoreus": New Guinea, Indonesia, Malaysia, Philippines, Indochina, Indian Subcontinent, China, Japan.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Fast growth in summer, favored by warm conditions. Tolerant to high winds and salt spray. Withstands extreme temperatures and drought.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Establishes in raw sand. Stimulates sand deposition that in return favors growth.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By stolons (growth 5 m/year) and rhizomes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | 1. Seeds buried 10 cm in moist sand, after prior brush matting (high mortality rate). 2. Runners or tip cuttings of 0.5 m long planted in temperate season on a 1 m grid into moist sand at a depth of 25 cm.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tolerant to swash.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Sporobolus pumilus'' (Salt-meadow Cordgrass) [[Image:SporobolusPumilus.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Shore stabilizing grass once it is firmly settled. Mostly common in marshland, but also in the dunes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | N America Atlantic coast from Newfoundland to Mexico.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Low drought tolerance; high salt tolerance.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Salty, wet habitat: marshland, moist dune sites. Highly adaptable to a range of soil conditions (loam, organic, sandy, clay).
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Reproduces both through seed and vegetative rhizomatous roots.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Multi-stemmed transplants from uncrowded nursery stands. Plants 20 cm deep in moist zone.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Sporubolus virginicus'' (Seashore Dropseed) [[Image:SporubolusVirginicus.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Dune stabilizer on wind-eroded shorelines. It has potential for stream bank stabilization and also roadside slope stabilization.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tropical zones of Africa, eastern Asia, Australasia, the Pacific, Caribbean, North and South America.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tropical zones. Adapted to low rainfall and high salinity.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Moist, alkaline, nutrient-poor soil. Sandy or muddy seashores (often below high tide mark) and saline marshes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Reproduces asexually through stolons and rhizomes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | From rhizomes sections planted in a sterile, well drained medium in a greenhouse.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Grazing plant for cattle.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Tamarix nilotica'' (Nile Tamarisk) [[Image:TamarixNilotica.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Shrub (2-5 m), sand binder for its extensive root system. Wind-blown sand comes to rest at the foot of the shrub, stimulating its growth and gradually creating a hummock.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Southeast Mediterranean region and east Africa. Also in the Nile valley. Other Tamarix species (T. aphylla, etc.) with similar characteristics around the Mediterranean and in the Middle East.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Adapted to arid subtropical climate, salt tolerant, capable to extract moisture from the underlying saline substrate. It tolerates temperatures from -10 to +50°C and frequent droughts.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |Wide variety of soils, loamy soil preferred.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Tamarix can spread both in vegetative mode, by roots or submerged stems, and sexually, by seeds. Seeds can be dispersed by wind and by water.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
| |
− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Salt excreted through the glands in the leaves in the form of litter or 'tears' causes soil salinization, reducing the growth of nearby plants <ref> Abdelgawad, A.A.M. 2017. Tamarix nilotica (Ehrenb) Bunge: A Review of Phytochemistry and Pharmacology. J. Microb. Biochem. Technol. 9: 544-553. doi: 10.4172/1948-5948.1000340</ref>.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Traganum moquinii'' [[Image:TraganumMoquinii.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Early colonizing, sand-binding bush species of foredunes of arid dunefields that interacts with aeolian sedimentary processes, generating nebkhas, shadow dunes and arid parabolic shaped dunes<ref>García-Romero, L., Hernández-Cordero, A., Hernández-Calvento, L. and Hesp, P.A. 2017. Long-term analysis of the role of Traganum moquinii plants in the foredune formation of an arid dunefield (Maspalomas, Gran Canaria, Canary Islands). 19th EGU General Assembly, proceedings from the conference held 23-28 April, 2017 in Vienna, Austria., p.1479</ref>.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Canary Islands, South Morocco, Mauritania and other close archipelagos, like Cape Verde.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Arid subtropical climate.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Shifting sands. Withstands sand burial by rapid vertical and horizontal growth.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Seeds are dispersed by the wind.
| |
− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
| |
− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Uniola paniculata'' (Sea Oats) [[Image:UniolaPaniculata.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Beach/dune grass with good sand-binding and dune-building capacity. Slow initial settlement. Very persistent.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | USA South Atlantic and Gulf coast, Mexico.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Mediterranean, subtropical climate. Once established, low water requirement and resistant to salt spray.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Well-drained poor sandy soil. Growth stimulated by sand deposition.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By rhizomes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Transplantation from wild stocks or nursery-grown 2-year old plants. Planting similar to ''Ammophila'' and ''Panicum''; young plants require moist soil and low salinity.
| |
− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | ''Zygophyllum fontanesii / Tetraena fontanesii'' (Sea Grape) [[Image:ZygophyllumFontanesii.jpg|110px|center]]
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Contributes to beach stability due to a strong root system; retains embryo dunes.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Western Sahara countries, Macaronesia, northeast Africa.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Sunny exposure. Can withstand intense drought. Requires regular salt spray.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Grows best in coarse, calcareous sandy brackish soils on the dunes; also on rocky soils.
| |
− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | By seeds.
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− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" | Seeds are very tolerant of salt water, but slow to germinate. Propagation by cuttings.
| |
− | | style="border:2px solid lightblue; font-size: 11px; text-align:center" |
| |
− | |}
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− | ==Further reading==
| |
− | *Martínez M. L. and Psuty N. P. (Eds.) 2003. Coastal Dunes; Ecology and Conservation. Springer, 386 pp.
| |
− | *Doody, J.P. 2013. Sand Dune Conservation, Management and Restoration. Coastal Research Library, Vol. 4, Springer, 303 pp.
| |
− | *Hesp, P.A. and Walker, I.J. 2013. Aeolian environments: coastal dunes. In: Shroder, J. (Editor in Chief), Lancaster, N., Sherman, D.J., Baas, A.C.W. (Eds.), Treatise on Geomorphology, vol. 11, Aeolian Geomorphology. Academic Press, San Diego, CA, pp. 109-133.
| |
− | *Martinez, M.L., Gallego-Fernandez, J.B. and Hesp, P.A. (Editors) 2013. Restoration of Coastal Dunes. Springer, 347pp.
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| |
− | ==References==
| |
− | <references/>
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− |
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− |
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− | {{2Authors
| |
− | |AuthorID1=120
| |
− | |AuthorFullName1=Job Dronkers
| |
− | |AuthorName1=Dronkers J
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− | |AuthorID2=99999
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− | |AuthorFullName2=Patrick Hesp
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− | |AuthorName2=Hesp P A
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− | }}
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− | [[Category:Coastal protection]]
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− | [[Category:Soft coastal interventions]]
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