Abstract
In this review, we summarize existing knowledge of the ecology of sandy-beach nematodes, in relation to spatial distribution, food webs, pollution and climate change. We attempt to discuss spatial scale patterns (macro-, meso- and microscale) according to their degree of importance in structuring sandy-beach nematode assemblages. This review will provide a substantial background on current knowledge of sandy-beach nematodes, and can be used as a starting point to delineate further investigations in this field. Over decades, sandy beaches have been the scene of studies focusing on community and population ecology, both related to morphodynamic models. The combination of physical factors (e.g. grain size, tidal exposure) and biological interactions (e.g. trophic relationships) is responsible for the spatial distribution of nematodes. In other words, the physical factors are more important in structuring nematodes communities over large scale of distribution while biological interactions are largely important in finer-scale distributions. It has been accepted that biological interactions are assumed to be of minor importance because physical factors overshadow the biological interactions in sandy beach sediments; however, the most recent results from in-situ and ex-situ experimental investigations on behavior and biological factors on a microscale have shown promise for understanding the mechanisms underlying larger-scale patterns and processes. Besides nematodes are very promising organisms used to understand the effects of pollution and climate changes although these subjects are less studied in sandy beaches than distribution patterns.
Highlights
Sandy beaches are dynamic ecosystems driven by prominent physical processes that shape the habitat for different functional and taxonomic groups
The aim of this review is to summarize what is known for sandy-beach nematodes in terms of spatial distribution patterns, temporal variability, food webs, pollution, and climate change
In order to provide an overview of world investigations for meiofauna and nematode sandy-beach ecology, we have summarized this information in a world map showing where the studies were conducted (Fig.1) followed by the adopted approach (Table I)
Summary
Sandy beaches are dynamic ecosystems driven by prominent physical processes that shape the habitat for different functional and taxonomic groups. The term “sandy beach” can be used to describe a wide range of environments, from high-energy open-. Structures (animal skeletons, coral and shell fragments) (adapted from McLachlan and Brown 2006). The term sandy beach was used in a narrower context, applying only for high-energy open-ocean or pocket beaches ranging from the reflective to the dissipative extremes. Basalt and heavy minerals can contribute to the sediment composition. The combination of permeability and penetrability determines the volume of water percolation, its drainage, and the oxygen penetration in sandy-beach sediments (McLachlan and Brown 2006)
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