全球冻融地区土壤是重要的N20释放源的综合分析

Ｎ２Ｏ是重要的温室气体之一，它是微生物硝化作用和脱氮化作用过程的产物。有多种释放源，其中土壤圈是重要的释放源之一。在影响Ｎ２Ｏ释放通量的诸多因素中温度是关键因素之一。本文根据土壤冻融加强有机质矿化作用，以及对微生物群体产生非生物应力的性质，结合冻融地区土壤和冻土带湿地所具有的特征，进行综合分析，论述冻融地区土壤是重要的Ｎ２Ｏ释放源。     

Fluxes of CO<Subscript>2</Subscript>, CH<Subscript>4</Subscript> and N<Subscript>2</Subscript>O from alpine grassland in the Tibetan Plateau

Using static chamber technique,fluxes of CO2,CH4 and N2O were measured in the alpine grassland area from July 2000 to July 2001,determinations of mean fluxes showed that CO2 and N2O were generally released from the soil,while the alpine grassland accounted for a weak CH4 sink.Fluxes of CO2,CH4 and N2O ranged widely.The highest CO2 emission occurred in August,whereas almost 90?of the whole year emission occurred in the growing season.But the variations of CH4 and N2O fluxes did not show any clear patterns over the one-year-experiment.During a daily variation,the maximum CO2 emission occurred at 16:00,and then decreased to the minimum emission in the early morning.Daily pattern analyses indicated that the variation in CO2 fluxes was positively related to air temperatures(R^2=0.73)and soil temperatures at a depth of 5 cm(R^2=0.86),whereas daily variations in CH4 and N2O fluxes were poorly explained by soil temperatures and climatic variables.CO2 emissions in this area were much lower than other grasslands in plain areas.     

温室气体源汇及其对气候影响的研究现状

温室气体对全球气候变化将产生深远的影响。本文拟从温室气体源汇研究以及温室气体对气候环境的影响等方面论述温室气体研究进展。尽管目前国内外对主要的温室气体源与汇研究报道很多,但不同的研究结果不尽一致,有些研究间甚至出现相反的结论。温室气体增加对气候的影响及其检测,主要是利用不同复杂程度的数值模式进行研究。     

土壤含水量与温度对羊草、大针茅典型草原土壤—植物系统温室气体收支影响的初步研究

本研究首次以我国内蒙古典型草原生态系统为研究对象,以密闭箱法对土壤－植物系统与大气间Ｎ２Ｏ和ＣＨ４气体交换进行了原位观测研究,通过结合实验室模拟实验研究表明,土壤含水量和温度对草原土壤－植物系统温室气体（Ｎ２Ｏ和ＣＨ４）排放通量有着重要的影响。在一定范围内,土壤含水量增加促进草原生态系统Ｎ２Ｏ排放和ＣＨ４吸收作用。温度升高促进草原生态系统Ｎ２Ｏ排放,但对ＣＨ４吸收的影响作用不明显。     

温室气体源汇及其对气候影响的研究进展

从与人类活动密切相关的温室气体（CO2、CH4、N2O）源汇研究以及温室气体对气候环境的影响等方面论述温室气体研究进展.介绍了国内外有关温室气体源和汇研究,如岩溶系统碳循环、黄土中温室气体组分特征、森林和大陆边缘海二氧化碳、稻田和湿地甲烷排放等方面的研究成果和认识.介绍了冰芯温室气体的部分研究成果和国内外温室气体与气候关系研究中涉及的一些模式及重要结论.结合温室气体源汇及其与气候变化,指出了目前应重视的一些研究内容,如研究陆地和海洋生态系统的碳氮循环问题,温室气体浓度变化与气候变化的相互关系以及气候变化机制.     

Differences in nitrous oxide distribution patterns between the Bering Sea basin and Indian Sector of the Southern Ocean

Nitrous oxide （N2O） distribution patterns in the Bering Sea basin （BSB） and Indian Sector of the Southern Ocean （ISSO） were described and compared. In both sites, the waters were divided into four layers： surface layer, subsurface layer, N2O maximum layer, and deep water. Simulations were made to find out the most important factors that regulate the N2O distribution patterns in different layers of both sites. The results showed that in the surface water, N2O was more understaturated in the ISSO than the BSB. This phenom- enon in the surface water of ISSO may result from ice melt water intrusion and northeastward transport of the Antarctic surface water. Results of the rough estimation of air-sea fluxes during the expedition were （-0.34±0.07）-（-0.64±0.13） μmol/（m2·d） and （-1.47±0.42）-（-1.77±0.51） μmol/（m-2·d） for the BSB and the ISSO, respectively. Strongly stratified surface layer and temperature minimum layer restricted exchange across the thermocline. The N2O maximum existed in higher concentration and deeper in the BSB than the ISSO, but their contribution to the upper layer by eddy diffusions was negligible. In deep waters, a concentration difference of 5 nmol/L N2O between these two sites was found, which suggested that N2O production occurred during thermohaline circulation. N2O may be a useful tracer to study important large-scale hydrographic processes.     

植物——大气N_2O一个重要的源

在全球大气N2O平衡的研究中,估算的N2O源不足以解释大气中N2O浓度的持续增加.大约每年有1.5 TgN的N2O源神秘地消失了(IPCC,1994),约占已知N2O源的1/10.这似乎暗示还有些N2O源未被发现,或者对已知N2O源的强度估计偏低.     

半干旱草原温室气体排放/吸收与环境因子的关系研究

静态箱—气相色谱法对内蒙古半干旱草原连续两年的实验观测研究结果表明，内蒙古草原是大气CO2和N2O的排放源，和CH4的汇。在植物生长不同季节，草原生态系统排放／吸收温室气体CO2、CH4和N2O的日变化形式各有不同，其中在植物生长旺季日变化形式最具特征。三种温室气体的季节排放／吸收高峰主要出现在土壤湿度较大的春融期和降雨较为集中时期。对所有草原植物生长季节，CO2净排放日变化形式均为白天出现排放低值，夜间出现排放高值。较高的温度有利于CO2排放，地上生物量决定着光合吸收CO2量值的高低。影响半干旱草原吸收CH4和排放N2O日变化形式的关键是土壤台水量和供氧状况，日温变化则主要影响日变化强度。吸收CH4和排放N2O的季节变化与土壤湿度季节变化分别呈线性反、正相关，相关系数均在0．4-0．6之间。自由放牧使CO2、N2O和CH4交换速率日较差降低，同时使N2O和CH4年度排放／吸收量减少和CO2年度排放量增加。     

Nitrous oxide concentration and nitrification and denitrification in Zhujiang River Estuary, China

1 Introduction Estuaries have been subject to intense anthro- pogenic influences over recent decades by inputs of ni- trogen as a consequence of fertilizer usage and sewage/waste input (Howarth et al., 1996). Thus, the capacity of an estuary to buffer or alleviate additional nutrients is of importance in modifying the load of ni- trogen in the marine ecosystem. The role of microor- ganisms in regulating fluxes of nitrogen from land to sea through estuaries has received increased attention (Ni…