Mollusc aquaculture homogenizes intertidal soft‐sediment communities along the 18,400 km long coastline of China

He‐Bo Peng,Zhijun Ma,Tanya J Compton,Guangchun Lei,Theunis Piersma,David S Melville,Ying‐Chi Chan,Shou‐Dong Zhang,Zhengwang Zhang,Xue‐Fei Cheng,Yunwei Dong

doi:10.1111/ddi.13302

Abstract

AbstractAimMolluscs are important grazers, filter and deposit feeders, scavengers and predators, which in turn are food for shorebirds, fish and people. Some species, targeted as human food, have been cultured along the Chinese coast for hundreds of years. To examine whether aquacultural practices have meanwhile affected biodiversity gradients, we measured mollusc community structure along the coast of China in habitats which are intensively used by humans.LocationChinese coast.MethodsWe sampled 21 intertidal sites spanning 20 latitudinal degrees and 18,400 km of coastline. We assessed alpha diversity to verify whether mollusc communities exhibit the expected biodiversity gradient with latitude and beta diversity gradients with distance. To examine whether human activities such as transportation and culturing could have affected these patterns, we distinguished commercial from non‐commercial mollusc species and compared the differences in distribution, density, alpha diversity and beta diversity.ResultsWe found non‐commercial species showed the expected biodiversity gradients. Commercial species (a) dominated the intertidal mollusc communities at 19 of the 21 sites and compared with non‐commercial species, (b) exhibited wider geographical distributions, (c) showed no significant change in Bray‐Curtis index (abundance‐based beta diversity) with either geographical or climatic distance, (d) exhibited lower average dissimilarities and (e) did not show a decrease in species richness and Shannon diversity with latitude. Combining all species, trends were the same as for the commercial species.Main conclusionsA few cultured species dominated the intertidal mollusc communities in high densities along the Chinese coastline, taking over the ecological roles of the native species but not driving them extinct. In this way, aquacultural practices have exerted a homogenizing influence strong enough to erase basic biodiversity gradients. Since molluscs are food for the growing human population and the shrinking populations of migratory animals, coastal planning and management of both intertidal habitats and the exploitative activities employed need to incorporate these dimensions.

Highlights

Along shallow coasts with adequate tidal ranges, intertidal shores form the link between marine and terrestrial ecosystems (Healy et al, 2002)
We aim to investigate whether aquacultural practices have influenced biodiversity gradients in mollusc community structure along the coast of China
All the sampling stations are located on open “natural” intertidal flats, because this is where mollusc aquaculture is conducted along the coast China

Summary

| INTRODUCTION

Along shallow coasts with adequate tidal ranges, intertidal shores (e.g. rocky shores, soft sediments, intertidal sand and mudflats) form the link between marine and terrestrial ecosystems (Healy et al, 2002). Stretching 2,500 km from south to north, spanning 20 latitudinal degrees and with a steep climatic gradient (Figure 1), the 18,400 km long coastline of China offers a great diversity of intertidal habitats (Alistair, 2000) Along this lengthy coastline, almost all the inshore intertidal areas, and even many offshore areas, have been altered by aquaculture (Li et al, 2011; Williams et al, 2019). Changes in the Bray–Curtis dissimilarity index indicate “ecological replacement,” that is commercial species replacing most of the space previously occupied by the original species, but not driving them extinct as in full replacement In this contribution, we aim to investigate whether aquacultural practices have influenced biodiversity gradients in mollusc community structure along the coast of China. With mollusc communities sampled across 20 latitudinal degrees, we are in the position to examine whether latitudinal changes in species richness and Shannon diversity index among the different categories of mollusc (all, non-commercial and commercial species, respectively) vary according to expectation, that is that the highest species diversity occurs in equatorial regions with gradual declines towards higher latitudes (Rex et al, 2000; Willig et al, 2003)

| METHODS

Methods interpolated extrapolated

Findings

| DISCUSSION