高级检索

    白垩纪“温室”气候与海洋

    Greenhouse climate and ocean during the Cretaceous

    • 摘要: 提要:白垩纪典型的“温室”气候和海洋一直是地学界关注的焦点之一。与现今地球“冰室”状态相比,温室状态下的气候和海洋遵循着不同的运行模式。本文在近年来取得的大量同位素、古生物以及气候和海洋模拟实验数据的基础上,评述了白垩纪古气候和古海洋研究中取得的重要进展。化石氧同位素数据揭示白垩纪全球平均气温比现今高3~10℃,海洋纬向温度梯度仅0.15~0.3 ℃/1°,全球海洋结构和大洋环流可能与现今完全不同,大洋环流的驱动很可能是盐度变化而不是温度差异。白垩纪深水沉积显示出从早白垩世碳酸盐台地相、含黑色页岩夹层、黑色页岩和大洋红层大规模出现一直到晚白垩世整体以大洋红层为主的转变。对该沉积转变机制及其与古海洋、古气候关系的研究正是IGCP463/494的主要科学目标。

       

      Abstract: Abstract:The Cretaceous greenhouse climate and paleoceanography is one of hot topics in the Earth sciences during the past twenty years. Observations and ocean models suggest that the climate system and oceanic dynamics during the greenhouse Cretaceous were quite different from their present icehouse patterns. Based on a wealth of geological, geochemical and paleontological data and climatic and oceanographic modeling data obtained in recent years, this paper reviews new advances in the study of the Cretaceous climate and paleoceanography. The fossils and oxygen isotope data reveal that the global mean annual temperature during the Cretaceous was generally 3–10℃ higher than today, and that the mean latitudinal temperature gradient of the ocean is estimated at only 0.15℃/1°– 0.3 ℃/1°. The global oceanic structures and ocean circulation were possibly completely different from those of today, since the forcing of ocean circulation was very likely to be the change in salinity, rather than temperature. Study of Cretaceous abyssal deposits suggests the transformation from the extensive occurrence of carbonate platform facies, black shale interbeds, black shale and oceanic red beds in the Early Cretaceous to predominance of oceanic red beds in the Late Cretaceous. The study of the mechanism of transformation of deposits and its relations to paleo-oceanography and paleoclimate is the main scientific objective of IGCP463/494.

       

    /

    返回文章
    返回