生物地球化学

LAI作为叶片的重要物理属性参数，是描述陆地表面相关进程模型的主要输入参数，被广泛应用到了生态学、生物地球化学、气候学等相关研究领域。

LAI as an important parameter of foliage , playing a significant role in land surface processes model , is widely applied to the relevant field of ecology , biogeochemistry and climate study .

中国近海表层沉积物中氨基酸组成特征及生物地球化学意义一体化地质建模在新近系礁灰岩储层定量表征中的应用

Amino acid composition and its biogeochemistry implications of surface sediments in coastal areas of China Application of Integrated Geological Modeling to the Characterization of Neocene Reef Reservoir

细根死亡和分解是林地土壤中C和养分的重要来源，研究细根分解是准确估计细根生产和周转的关键，并有利于深入认识森林生态系统生物地球化学循环。

Fine roots mortality and decomposition are major source of C and nutrient in forest stand .

我国的C、N、P、S生物地球化学循环与全球变化的关系研究；

Interactions between biogeochemical cycle of C , N , P , S in China and global change ;

细菌的异化Fe（Ⅲ）还原指以Fe（Ⅲ）为末端电子受体在无氧条件下氧化有机物的产能过程，在生物地球化学循环中起着重要的作用。

Dissimilatory Fe (ⅲ) reduction is the important process in Biogeochemical cycle .

~（15）N示踪技术在湿地氮素生物地球化学过程研究中的应用进展

Application Advance of ~ ( 15 ) N Trace Technique in the Biogeochemical Process of Nitrogen in Wetland

天然放射性核素~（32）P和~（33）P在海洋生物地球化学中的示踪研究概况

A review of natural radionuclides ~ ( 32 ) p and ~ ( 33 ) p tracer studies for the biogeochemistry in the ocean

Au的生物地球化学异常和对植物细胞的变异效应

Gold biogeochemical anomaly and aberrance effect of botanic cell tissue

并基于多元线性回归方法和因子分析法探讨了林业用地以及气候因子对中国森林植被碳储量的影响；同时，结合生物地球化学循环模型CENTURY模型评估了中国森林生态系统的碳收支。

Multiple linear regressive model was used to study the response of forest vegetation carbon storage to the changes of forest land use and climatic factors .

海洋生物地球化学与生态系统分析（OCEANS）&一个酝酿中的国际科学计划

Ocean Biogeochemistry and Ecosystem Analysis & A New Planning International Academic Program

在金、铜矿床（体）上方分别发育有良好的Au和Cu的生物地球化学异常和元素组合及分带。

The Au and Cu botanical geochemical anomaly and composed zonation are respectively developed over orebodies in gold deposits and copper deposits .

细菌Fe（Ⅲ）还原在生命的进化和整个生物地球化学循环中起到重要作用，具重要的环境学意义。

In addition , bacterial Fe (ⅲ) reduction play important roles in the biological geochemistry circulation and environmental remediation , therefore has vital environmental significance .

海洋溶解有机物质（DOM）在海洋碳的生物地球化学循环中占有重要地位。

Dissolved organic matter ( DOM ) in the ocean is the fundamental part of marine carbon biogeochemical cycles .

海洋生物地球化学过程对Ca和Sr的地球化学特征有重要影响。

Also , the processes of marine geochemistry play an important role in the characteristics of Ca and Sr in the study area .

认识LUCC、生物地球化学和气候之间的相互关系。

Acknowledge interrelations between LUCC , Biogeochemistry and climate .

分析了生物地球化学循环中植物土壤生态系统的有机物动态，土壤有机质（SOM）主要库类土壤C，N，P，S循环特点；

The soil organic matter ( SOM ) dynamic in ecosystem was analyzed between plant and soil including soil C , N , P , S cycles in biogeochemical circulation .

海水颗粒有机碳（POC）变化的生物地球化学机制

Biogeochemical mechanism of particulate organic carbon ( POC ) variations in seawaters

海水微表层与次表层中DMS和DMSP的生物地球化学研究

Studies on Biogeochemistry of DMS and DMSP in the Microlayer and Subsurface Water

通过建立2个简单的铬生物地球化学循环模型PM和CM，来说明人类工业活动对铬的生物地球化学循环的影响。

Two simple biogeochemical cycle models ( PM and CM ) were developed to demonstrate the influence of chromium on the biogeochemical cycle from human activities in this paper .

从生物地球化学循环的观点出发，研究了N循环的人为干扰与土壤酸化的关系，并探讨了N循环扰动下导致土壤酸化的机理。

The relation between soil acidification and nitrogen cycle disturbed by man made factors was studied from the viewpoint of biogeochemical cycle , and the mechanism of soil acidification induced by disturbed nitrogen cycle was probed .

氧的非质量同位素分馏还将在（古）大气臭氧活性、火山喷发柱化学和O、S、N生物地球化学循环等研究中发挥更大作用。

This demonstrates that mass-independent oxygen isotope fractionation will play a more important role in the research on ( ancient ) atmospheric ozone activity , chemistry in volcanic plumes and O , S and N biogeochemical cycle .

在磷生物地球化学循环过程中，AP起了极其重要的作用。AP广泛应用于诊断学、生物化学及分子生物化学领域。

AP plays a vital important role in phosphate cycle of world creatures , and has been used widely in the fields of diagnostics , biochemistry and molecular biology .

总体来看，随着种植年限的延长茶园土壤养分及化学特性发生改变，而不同形态Al含量和茶树体内Al含量则均呈增加趋势，茶园Al生物地球化学循环强度和速率不断加强和加快。

In general , soil basic chemical properties changed , soil Al fractions and plant Al status showed an increasing tendency with increasing planting year . The biogeochemical cycles in tea garden farm continuously strengthened and accelerated .

海洋水体中的浮游生物的数量与分布在生源要素生物地球化学循环（如C循环、N循环）及全球气候研究具有非常重要的意义。

The number and distribution of marine plankton in ocean water bodies have very important significance in the research of the biogenic elements in the biogeochemical cycles ( such as C cycle , N cycles ) and research of global climate .

锰氧化微生物广泛存在于水相和土壤环境中，可高效地将Mn（Ⅱ）氧化成Mn（Ⅳ），在锰的生物地球化学循环中具有重要的作用。

Manganese-oxidizing microbes widely exist in the water and soil environment . They are able to oxidize Mn2 + into Mn4 + efficiently and therefore play an important role in the biogeochemical cycling of manganese .

INAA研究南极菲尔德斯半岛西湖沉积物和植物残体的生物地球化学特征

Biogeochemical study of the sediments and plant remainders of Xihu Lake , Fields Peninsula , Antarctic with INAA

研究海洋中的CO具有重要的生物地球化学意义，因为它在控制大气中羟基自由基的浓度、参与全球碳循环进而影响全球气候变化等方面起着重要作用。

Oceanic carbon monoxide ( CO ) has been of biogeochemical interest for decades because of its important roles in regulating the atmospheric concentration of hydroxyl radicals , participating in the global carbon cycle and thus affecting the global climate change .

沙尘暴不仅为硫酸盐和硝酸盐形成载体，还为广阔的海洋和陆地生态系统提供大量的包括Fe（Ⅱ）和P等营养元素，这必将对全球的生物地球化学循环产生深远的影响。

DS not only can serve as surface carrier for the formation of sulfate and nitrate , but also can provide vital nutrients , such as Fe (ⅱ) and P , to the oceans , which would have far-reaching impact on the global biogeochemical cycle .

比较系统地介绍了国内外Al的海洋生物地球化学研究进展，内容包括Al在海洋中的来源及输送通量、不同海区的分布特点、水体中的溶解态Al的赋存形式及其迁移转化规律等。

The manuscript focused on the progresses of marine biogeochemistry study on aluminum at home and abroad , including the main study fields of aluminum , such as its source and transport flux , distribution , dissolved speciation in the water and transformation .

土壤微生物在生物地球化学循环（biogeochemicalcycles，BGC）过程中扮演着非常重要的角色，对地表生态系统乃至全球都存在重要的影响。

Soil microorganisms play pivotal roles in various biogeochemical cycles ( BGC ), and also influence aboveground ecosystems or even the planet . There are self-successions in soil microbial communities .