Chin Karen, Bloch John, Sweet Arthur, Tweet Justin, Eberle Jaelyn, Cumbaa Stephen, Witkowski Jakub, Harwood David
Department of Geological Sciences, University of Colorado, Boulder, CO 80309, USA.
Proc Biol Sci. 2008 Dec 7;275(1652):2675-85. doi: 10.1098/rspb.2008.0801.
As the earth faces a warming climate, the rock record reminds us that comparable climatic scenarios have occurred before. In the Late Cretaceous, Arctic marine organisms were not subject to frigid temperatures but still contended with seasonal extremes in photoperiod. Here, we describe an unusual fossil assemblage from Devon Island, Arctic Canada, that offers a snapshot of a ca 75 Myr ago marine palaeoecosystem adapted to such conditions. Thick siliceous biogenic sediments and glaucony sands reveal remarkably persistent high primary productivity along a high-latitude Late Cretaceous coastline. Abundant fossil faeces demonstrate that this planktonic bounty supported benthic invertebrates and large, possibly seasonal, vertebrates in short food chains. These ancient organisms filled trophic roles comparable to those of extant Arctic species, but there were fundamental differences in resource dynamics. Whereas most of the modern Arctic is oligotrophic and structured by resources from melting sea ice, we suggest that forested terrestrial landscapes helped support the ancient marine community through high levels of terrigenous organic input.
随着地球面临气候变暖,岩石记录提醒我们,类似的气候情景以前也曾出现过。在晚白垩世,北极海洋生物并未遭受严寒气温,但仍要应对光周期的季节性极端变化。在此,我们描述了来自加拿大北极地区德文岛的一个不同寻常的化石组合,它提供了一个约7500万年前适应此类条件的海洋古生态系统的快照。厚厚的硅质生物源沉积物和海绿石砂表明,在晚白垩世高纬度海岸线上,初级生产力持续显著较高。大量的化石粪便表明,这种浮游生物的丰富资源在短食物链中为底栖无脊椎动物和大型(可能是季节性的)脊椎动物提供了支持。这些古代生物所占据的营养生态位与现存北极物种相当,但在资源动态方面存在根本差异。虽然现代北极大部分地区是贫营养的,且由海冰融化产生的资源构成其结构,但我们认为,森林覆盖的陆地景观通过高水平的陆源有机输入,帮助维持了古代海洋群落。