生态机遇塑造了北极大量碳物种的辐射

Carmela J. Doenz, Andrin K. Krähenbühl, Jonas Walker, O. Seehausen, J. Brodersen
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引用次数: 27

摘要

生态机会被认为是适应性辐射的关键因素。在这里,我们结合遗传、形态学和生态学数据,评估了格陵兰岛最南端一个集水区的六个湖泊中北极炭鱼的物种和生态形态多样性,那里只有炭鱼和棘鱼。由于生境和资源的多样性随着湖泊规模的增大而增加,我们预测湖泊规模与生态形态多样性程度呈正相关。该集水区最大的湖泊拥有今天已知的最大的北极木炭群落。它由6个遗传分化的物种组成,属于5种生态形态(溯河、沿海底栖、深海侏儒、浮游、鱼食),其中后者包括两个生态形态极为相似的物种。中等大小的湖泊包含两种生态形态和遗传上不同的物种。小湖泊拥有一种遗传上同质的种群,但有时生态形态上存在差异。支持我们的预测,湖泊大小与生态形态向深海、远洋和食鱼生活方式的专业化程度呈正相关。此外,当存在一个以上的遗传簇时,整个组合的形态空间急剧增加。我们的数据表明,生态机会和物种形成共同决定了这种碳辐射的表型扩展。
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Ecological opportunity shapes a large Arctic charr species radiation
Ecological opportunity is considered a crucial factor for adaptive radiation. Here, we combine genetic, morphological and ecological data to assess species and ecomorphological diversity of Artic charr in six lakes of a catchment in southernmost Greenland, where only charr and stickleback occur. Because the diversity of habitats and resources increases with lake size, we predict a positive association between lake size and the extent of ecomorphological diversity. The largest lake of the catchment harbours the largest Arctic charr assemblage known today. It consists of six genetically differentiated species belonging to five ecomorphs (anadromous, littoral benthic, profundal dwarf, planktivorous, piscivorous), of which the latter comprises two ecomorphologically extremely similar species. Lakes of intermediate size contain two ecomorphologically and genetically distinct species. Small lakes harbour one genetically homogeneous, yet sometimes ecomorphologically variable population. Supporting our prediction, lake size is positively correlated with the extent of ecomorphological specialization towards profundal, pelagic and piscivorous lifestyle. Furthermore, assemblage-wide morphospace increases sharply when more than one genetic cluster is present. Our data suggest that ecological opportunity and speciation jointly determine phenotypic expansion in this charr radiation.
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