The Ediacaran 'Miaohe Member'of South China: new insights from palaeoredox proxies and stable isotope data
Throughout the Ediacaran Period, variable water-column redox conditions persisted along
productive ocean margins due to a complex interplay between nutrient supply and
oceanographic restriction. These changing conditions are considered to have influenced
early faunal evolution, with marine anoxia potentially inhibiting the development of the
ecological niches necessary for aerobic life forms. To understand this link between
oxygenation and evolution, the combined geochemical and palaeontological study of …
productive ocean margins due to a complex interplay between nutrient supply and
oceanographic restriction. These changing conditions are considered to have influenced
early faunal evolution, with marine anoxia potentially inhibiting the development of the
ecological niches necessary for aerobic life forms. To understand this link between
oxygenation and evolution, the combined geochemical and palaeontological study of …
[PDF][PDF] The Ediacaran 'Miaohe Member'of South China: new insights from paleoredox proxies and
P Bridger, SW Poulton, Y Zhou, C Li, K Zhang… - Geobiology - core.ac.uk
Abstract Throughout the Ediacaran Period, variable water-column redox conditions
persisted along productive ocean margins due to a complex interplay between nutrient
supply and oceanographic restriction. These changing conditions are considered to have
influenced early faunal evolution, with marine anoxia potentially inhibiting the development
of the ecological niches necessary for aerobic life forms. To understand this link between
oxygenation and evolution, the combined geochemical and paleontological study of marine …
persisted along productive ocean margins due to a complex interplay between nutrient
supply and oceanographic restriction. These changing conditions are considered to have
influenced early faunal evolution, with marine anoxia potentially inhibiting the development
of the ecological niches necessary for aerobic life forms. To understand this link between
oxygenation and evolution, the combined geochemical and paleontological study of marine …
以上显示的是最相近的搜索结果。 查看全部搜索结果