生物地球化学与气候

H. Dolman
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引用次数: 6

摘要

本章重点介绍气候研究的工具:生物地球化学观测和模型。它讨论了物理气候观测,如温度和湿度,以及大气成分的现场观测。将这些数据转化为可靠的气候记录似乎并非易事。本章描述了如何使用同位素来深入了解生物地球化学过程。一类特殊的观测是生物地球化学代理观测,用于在无法进行直接观测的情况下深入了解地质过程。描述了气候代理观测的例子,例如通过冰芯获得的观测。模式越来越多地用于深入了解气候对强迫变化的敏感性。在过去的二十年里,地球系统建模变得越来越复杂,包括海洋和陆地上经常详细的生物地球化学过程。这些参数化仍然是一个重要的研究课题。正使用逆模型来确定温室气体的源和汇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biogeochemistry and Climate
This chapter focuses on tools for climate research: biogeochemical observations and models. It discusses physical climate observations, such as temperature and humidity, and in situ observations of atmospheric composition. Turning these into reliable climate records appears to be non-trivial. The chapter describes how isotopes are used to get insight into biogeochemical processes. A special category of observations is biogeochemical proxy observations, used to gain insight into geological processes when no direct observations are possible. The example of climate proxy observations, such as those obtained via ice cores, is described. Models are increasingly used to gain insight into sensitivity of climate to changes in the forcing. Earth system modelling has become increasingly complex over the last two decades, including often detailed biogeochemical processes in the ocean and on land. The parametrization of these remains an important research subject. Inverse modelling is being used to identify sources and sinks of greenhouse gases.
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