| Literature DB >> 33402072 |
Paolo G Albano1, Jan Steger1, Marija Bošnjak1,2, Beata Dunne1, Zara Guifarro1, Elina Turapova1, Quan Hua3, Darrell S Kaufman4, Gil Rilov5, Martin Zuschin1.
Abstract
Global warming causes the poleward shift of the trailing edges of marine ectotherm species distributions. In the semi-enclosed Mediterranean Sea, continental masses and oceanographic barriers do not allow natural connectivity with thermophilic species pools: as trailing edges retreat, a net diversity loss occurs. We quantify this loss on the Israeli shelf, among the warmest areas in the Mediterranean, by comparing current native molluscan richness with the historical one obtained from surficial death assemblages. We recorded only 12% and 5% of historically present native species on shallow subtidal soft and hard substrates, respectively. This is the largest climate-driven regional-scale diversity loss in the oceans documented to date. By contrast, assemblages in the intertidal, more tolerant to climatic extremes, and in the cooler mesophotic zone show approximately 50% of the historical native richness. Importantly, approximately 60% of the recorded shallow subtidal native species do not reach reproductive size, making the shallow shelf a demographic sink. We predict that, as climate warms, this native biodiversity collapse will intensify and expand geographically, counteracted only by Indo-Pacific species entering from the Suez Canal. These assemblages, shaped by climate warming and biological invasions, give rise to a 'novel ecosystem' whose restoration to historical baselines is not achievable.Entities:
Keywords: Lessepsian invasion; Mediterranean Sea; Mollusca; biodiversity collapse; novel ecosystem
Mesh:
Year: 2021 PMID: 33402072 PMCID: PMC7892420 DOI: 10.1098/rspb.2020.2469
Source DB: PubMed Journal: Proc Biol Sci ISSN: 0962-8452 Impact factor: 5.349