Internal tides affect benthic community structure in an energetic submarine canyon off SW Taiwan

• Published in: Deep-sea research. Part I, Oceanographic research papers Vol. 125; pp. 147 - 160
• Main Authors: Liao, Jian-Xiang, Chen, Guan-Ming, Chiou, Ming-Da, Jan, Sen, Wei, Chih-Lin
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.07.2017
• ISSN: 0967-0637; 1879-0119
• DOI: 10.1016/j.dsr.2017.05.014

Submarine canyons are major conduits of terrestrial and shelf organic matter, potentially benefiting the seafloor communities in the food-deprived deep sea; however, strong bottom currents driven by internal tides and the potentially frequent turbidity currents triggered by storm surges, river flooding, and earthquakes may negatively impact the benthos. In this study, we investigated the upper Gaoping Submarine Canyon (GPSC), a high-sediment-yield canyon connected to a small mountain river (SMR) off southwest (SW) Taiwan. By contrasting the benthic meiofaunal and macrofaunal communities within and outside the GPSC, we examined how food supplies and disturbance influenced the benthic community assemblages. The benthic communities in the upper GPSC were mainly a nested subset of the adjacent slope assemblages. Several meiofaunal (e.g. ostracods) and macrofaunal taxa (e.g. peracarid crustaceans and mollusks) that typically occurred on the slope were lost from the canyon. The polychaete families switched from diverse feeding guilds on the slope to motile subsurface deposit feeders dominant in the canyon. The diminishing of epibenthic peracarids and proliferation of deep burrowing polychaetes in the GPSC resulted in macrofauna occurring largely within deeper sediment horizons in the canyon than on the slope. The densities and numbers of taxa were depressed with distinct and more variable composition in the canyon than on the adjacent slope. Both the densities and numbers of taxa were negatively influenced by internal tide flushing and positively influenced by food availability; however, the internal tides also negatively influenced the food supplies. While the meiofauna and macrofauna densities were both depressed by the extreme physical conditions in the GPSC, only the macrofaunal densities increased with depth in the canyon, presumably related to increased frequency and intensity of disturbance toward the canyon head. The population densities of meiofauna, on the other hand, rebounded more rapidly due to their fast growth rate and short generation time and thus did not display bathymetric pattern in the canyon. To our knowledge, this is the first benthic ecological study in a submarine canyon connected to a high-sediment-yield SMR. The biological responses to extreme physical conditions in the GPSC could have broad implications on understanding the anthropogenic and climate change impacts in the deep-sea ecosystems. •We examined submarine canyon benthos subjected to strong internal tides.•Lower density, numbers of taxa, and distinct composition were found in the canyon.•Environmental filtering by canyon contributed to taxon loss and abundance reduction.•Internal tide flushing in the canyon may modulate food supply and exerts stress.•This study helps predicting the responses of deep-sea benthos to disturbance.