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机译:跨代暴露于海洋酸化后双壳贝壳的痕量元素变化:对地理可追溯性和环境重建的意义
College of Fisheries Guangdong Ocean University Zhanjiang 524088 China Institute of Geosciences University of Mainz Mainz55128 Germany Atmosphere and Ocean Research Institute The University of Tokyo. China 277-8564 Japan;
Institute of Geosciences University of Mainz Mainz55128 Germany Department of Human Evolution Max Planck Institute for Evolutionary Anthropology Leipzig 04103 Germany;
Atmosphere and Ocean Research Institute The University of Tokyo. China 277-8564 Japan;
Department of Fisheries Tianjin Agricultural University Tianjin 300384 China;
College of Fisheries Guangdong Ocean University Zhanjiang 524088 China;
College of Life Science and Fisheries Dalian Ocean University Dalian 116023 China;
Institute of Geosciences University of Mainz Mainz55128 Germany;
Bivalve shells; Trace elements; Ocean acidification; Transgenerational acclimation; Ruditapes philippinarum;
机译:海洋酸化可与个体发育相互作用以确定双壳类壳的微量元素组成
机译:钠为海洋酸化对双壳壳形成的跨代影响提供了独特见解
机译:从阿根廷西北巴塔哥尼亚的考古淡水双壳壳碎片中使用稳定同位素和微量元素的古环境重建
机译:海洋微量金属的化学模型:海洋酸化对海洋生态系统的影响
机译:有机磷腕足动物壳内的微量元素分布:对生长,保存和古环境的影响。
机译:北大西洋双壳类的后代暴露于海洋酸化使后代更容易受到低pH值和其他胁迫因素的影响
机译:从阿根廷西北巴塔哥尼亚的考古淡水双壳壳碎片中使用稳定同位素和微量元素的古环境重建
机译:利用幼虫壳中的微量元素作为双壳扩散的标记