Disturbances of nematodes
Nematode disturbances
Sediment movement, erosion and deposition are natural processes, and benthic organisms have adapted to such disturbances. Man-made physical disturbances (e.g., beam trawling, dredged material disposal, coastal development) occur at a much larger scale, rate and magnitude and may exceed the adaptive capacity of sediment-inhabiting organisms.
MarBEF researchers on the MANUELA project compiled and analysed an extensive database of experimental and observational studies to investigate the effects of physical disturbances in sediments on nematodes.
Different disturbances in the same region
Some measures of diversity decreased with increasing level of disturbance regardless of the disturbance type. Others, however, were more variable and depended on the nature and origin of the disturbance. Hence, there is no consistent effect of physical disturbances on nematode assemblages.
In addition, it was shown that man-induced changes are intrinsically different from those of natural origin. Nematode assemblages were more similar after being subjected to high-intensity disturbances, even if they originated from geographically distinct areas.
Similar disturbances in different regions
However, it is largely unknown whether nematodes respond in a similar way to the same disturbance, independently from the geographical location. MANUELA researchers mimicked the effect of an increased amount and frequency of rainfall on sandy beaches from four different locations in Europe. Experimental beaches were located in Poland (Baltic Sea), Belgium (North Sea), Portugal (North East Atlantic Ocean) and Crete (Mediterranean Sea). Beaches covered a range of tidal regimes, salinity and temperature environments.
The frequent addition of freshwater to the Baltic beach did not affect salinity in the sand, due to the low natural salinity. All other beaches showed modified salinity profiles. All nematode assemblages changed significantly as a consequence of the experimental treatment but the underlying mechanisms were different. Nematodes do not show a universal response to disturbances associated with climate change. This shows that there is no universal response of nematode assemblages to disturbances and that changes occurring at a global scale will have different impacts in different localities. The adaptation of the receiving community to the frequently-changing environment largely determines the effect of the increase in rainfall.
MARBEF has examined impacts of disturbance
at a truly European scale - collating, generating
and comparing evidence from a wide range of
disturbance types, habitats, taxa, places and
times. Its researchers have worked to improve
methodologies for data collection, archiving
and analysis and have completed a substantial
body of original research. New evidence has
shown that the impacts of key disturbances can
vary substantially depending on the
environmental context in which they act and are
not necessarily predictable based on existing
knowledge.
The specific and general findings of the work
can be applied directly to the implementation of
the existing Water Framework Directive and the
new Marine Strategy Framework Directive.
Effective decision-support tools must
incorporate empirically derived insight into the
impacts of key disturbances in specific regions
and localities.
The databases generated during MARBEF will
provide a lasting legacy and can be built upon
and interrogated repeatedly in future with great
potential to improve our understanding of
variation in impacts of disturbance on marine
ecosystems and our approaches to managing
marine environments.