Vermeij Geerat J, DeVries Thomas J, Griffin Miguel, Nielsen Sven N, Ochoa Diana, Rivadeneira Marcelo M, Salas-Gismondi Rodolfo, Valdovinos Fernanda
Department of Earth and Planetary Sciences University of California, Davis Davis California USA.
Burke Museum of Natural History and Culture University of Washington Seattle Washington USA.
Ecol Evol. 2024 Jul 21;14(7):e70048. doi: 10.1002/ece3.70048. eCollection 2024 Jul.
The Peruvian Province, from 6° S in Peru to 42° S in Chile, is a highly productive coastal marine region whose biology and fossil record have long been studied separately but never integrated. To understand how past events and conditions affected today's species composition and interactions, we examined the role of extinction, colonization, geologic changes to explain previously unrecognized peculiar features of the biota and to compare the Peruvian Province's history to that of other climatically similar temperate coasts. We synthesized all available data on the benthic (or benthically feeding) biota, with emphasis on fossilizable taxa, for the interval from the Miocene (23-5.4 Ma) and Pliocene (5.4-2.5 Ma) to the present. We outline the history of ecological guilds including primary producers, herbivores, predators, and suspension-feeders and document patterns of extinction, colonization, and geographic restriction. We identify twelve unusual attributes of the biota, most of which are the result of repeated episodes of extinction. Several guilds present during the Miocene and Pliocene are not represented in the province today, while groups such as kelps and perhaps intertidal predatory sea stars are relative newcomers. Guilds on soft bottoms and in sheltered habitats were severely affected by extinction, whereas those on hard bottoms were most affected by colonists and held their own in diversity. The Peruvian Province has not served as a biogeographic refuge, in contrast to the coasts of Australasia and Argentina, where lineages no longer present in the Peruvian Province survive. The loss of sheltered habitats since the Pliocene explains many of the present-day peculiarities of the biota. The history of the province's biota explains its unique attributes. High productivity, a rich Southern Hemisphere heritage, and colonization from the north account for the present-day composition and unusual characteristics of the biota.
秘鲁省,从秘鲁南纬6°到智利南纬42°,是一个高产的沿海海洋区域,其生物学和化石记录长期以来一直被分开研究,从未整合过。为了了解过去的事件和条件如何影响当今的物种组成和相互作用,我们研究了灭绝、定殖和地质变化的作用,以解释生物群以前未被认识的独特特征,并将秘鲁省的历史与其他气候相似的温带海岸的历史进行比较。我们综合了从中新世(2300万 - 540万年前)、上新世(540万 - 250万年前)到现在这段时间内所有关于底栖生物(或底栖摄食生物)的可用数据,重点是可形成化石的分类群。我们概述了包括初级生产者、食草动物、食肉动物和悬浮摄食者在内的生态群落的历史,并记录了灭绝、定殖和地理限制的模式。我们确定了生物群的十二个不寻常特征,其中大多数是反复灭绝事件的结果。中新世和上新世期间存在的几个群落如今在该省已不见踪影,而海带等类群以及潮间带捕食性海星可能是相对较新的成员。软底和受庇护栖息地的群落受到灭绝的严重影响,而硬底群落则受定殖者影响最大,但在多样性方面保持了自身的水平。与大洋洲和阿根廷的海岸不同,秘鲁省并未起到生物地理避难所的作用,在后者的海岸,秘鲁省已不复存在的谱系仍有留存。自上新世以来受庇护栖息地的丧失解释了当今生物群的许多独特之处。该省生物群的历史解释了其独特属性。高生产力、丰富的南半球遗产以及来自北方的定殖造就了当今生物群的组成和不寻常特征。
