地球生物学

生命与地球环境的协同演化是地球生物学的核心。

The coevolution between life and the earth 's environment is the core of geobiology .

白垩纪中期海相富有机碳沉积的地球生物学背景

Geobiological setting of the marine organic carbon-rich accumulation in mid-Cretaceous

进一步讨论了气候系统内部的、涉及地球生物学和化学的几种气候反馈机制。

Furthermore , some climate feedbacks existing in interior of the climate system and involving the planet 's biology and chemistry have also been discussed .

解决评价这两个条件问题的思路，就是应用地球生物学理论正演烃源岩形成的动力学过程。

The idea to evaluate these two conditions is to apply the geobiological theory , which take the forward modeling to evaluate the dynamic process of the hydrocarbon source rocks .

上述例子也可以说明放射虫动物群的组成和繁盛均受环境控制，其中水深是对放射虫的地球生物学行为影响较大的因素之一。

The above example also illustrate the composition and flourishing of the radiolarian fauna are subject to environmental control , the depth of water is one of the influential factors on radiolarian geobiological behavior .

新兴的地球生物学理论采取正演方法，对烃源岩进行评价，为高热成熟度、低有机质丰度地区的烃源岩评价提供了可行的途径。

The emerging geobiological theory , which take the forward modeling to evaluate the hydrocarbon source rocks , provides a feasible way for the area with high thermal maturity and low abundance of organic matter .

放射虫的地球生物学过程是受多方而因素控制影响的，而放射虫动物群的组成、丰度、分异度等特征的变化也可以对当时的环境进行反演。

The radiolarian geobiological processes are affected and controlled by many factors , the environment at that time can also be inversion in accordance with the changes in radiolarian fauna composition , abundance , and differentiation degree .

由于大部分珊瑚生活在浅水区，生活在地球上生物学某些最特殊地区的珊瑚礁尤其容易受到伤害。

Since most corals live in shallow waters , coral reefs , some of the most biologically diverse places on Earth , are particularly vulnerable .

资源学属于应用理学，以地球科学、生物学、天文学为其学科理论基础。

The natural resource science belongs to applied science . Earth science , biology and astronomy serve as its theory basis .

二叠纪-三叠纪之交地球表层系统的多幕式变化：分子地球生物学记录

Episodic changes of the earth surface system across the Permian-Triassic boundary : molecular geobiological records