温室气体排放与中国粮食生产

中国用占世界8％的土地养活了世界上1／5的人口，粮食生产已经基本满足了现有人口的需求。但是，生产粮食会向大气释放大最的温室气体。面对全球减少温室气体排放的压力，在粮食生产中，增加农田生态系统的碳固定能力及减少N2O和CH4的排放，直接关系着中国粮食生产的未来发展。文章分析全球和中国温室气体排放清单中粮食生产的作用和意义；利用生物地球化学模型DNDC和中国农业生产数据库，估算中国农田生态系统的土壤碳动态和N2O排放；通过情景分析(Scenario)，预测在不同方案下，中国农田生态系统碳动态和N2O的排放量；提出了我国未来粮食生产应该采取的对策和技术措施。     

稻田甲烷排放的研究进展

稻田是甲烷的重要排放源之一。文章对稻田甲烷的最新研究进展作了较为详尽的综述,包括稻田甲烷排放的机理、规律;重点分析了影响稻田甲烷排放的因素以及控制稻田甲烷排放的措施。最后指出了今后的研究重点应以现有的田间数据为基础,建立稻田温室气体排放的综合模型,预测稻田温室气体排放变化。     

N_2O、CO_2温室气体与土壤DNDC模型

本文对N2O、CO2两种温室气体的研究工作进行了评述,重点介绍了土壤脱氮-分解模型（DNDC）的起始原由、发展过程及其结构.并通过对模型在不同国家和地区的灵敏度检验,表明与实测结果非常吻合,得出了非常重要的结论.这一模型不仅对N2O、CO2等温室气体的全球变化研究有重要意义.而且对土壤农业耕作实践也有指导作用,但这些结论有待于进一步的详细研究.     

中国农田主要温室气体排放特征与控制技术

全球气候变化已成为不争的事实,已经引起了各国科学家和政府的高度重视。人类活动向大气中排放的二氧化碳（CO2）、甲烷（CH4）和氧化亚氮（N2O）等温室气体浓度的增加是导致气候变化的重要原因之一。农田土壤是这三种温室气体的重要来源。文章概述了农田土壤CO2、CH4和N2O三种主要温室气体的排放机制,系统总结了国内对这三种温室气体排放通量的观测研究,提出了相应的减排技术对策,并对目前的研究问题和未来的发展方向作了深入的探讨,以期为控制农田土壤温室气体排放、发展低碳农业提供参考依据。     

Strategies to achieve a carbon neutral society: a review

Environmental Chemistry Letters - The increasing global industrialization and over-exploitation of fossil fuels has induced the release of greenhouse gases, leading to an increase in global...     

Green construction for low-carbon cities: a review

Environmental Chemistry Letters - The construction industry is a major user of non-renewable energy and contributor to emission of greenhouse gases, thus requiring to achieve net-zero carbon...     

China’s agricultural GHG emission efficiency: regional disparity and spatial dynamic evolution

Environmental Geochemistry and Health - Improving China’s agricultural greenhouse gases (GHG) emission efficiency has become an important way to cope with climate change in an...     

Biofuel types and membrane separation

Environmental Chemistry Letters - Global warming induced by greenhouse gases is major issue worldwide. There is therefore a need to develop renewable sources of energy, such as biofuels. Here, we...     

Management of hailstorms under a changing climate in agriculture: a review

Environmental Chemistry Letters - Climate change is impacting agriculture through a rise in greenhouse gases, higher temperatures and extreme precipitation patterns, with adverse consequences such...     

冻融条件下土壤N_2O排放研究进展

随着全球气候变化以及突发性气候事件频繁发生,温室气体逐渐成为公众普遍关注的问题.作为温室气体的重要组成之一,土壤N_2O气体排放也一直都是研究的焦点.但长期以来开展的土壤N_2O监测大多在作物生长季节,随着研究的深入和领域的拓展,很多试验和数据证实冻融条件下土壤N_2O的排放不容忽视.冻融条件下土壤N_2O排放主要受土壤水分形态和分布,土壤团聚体形成或破碎,土壤微生物种群和数量,以及N_2O产生途径变化等因素影响.从以上几个方面综述了国内外冻融条件下土壤N_2O排放的研究进展.结合作者相关研究结果认为应加强以下重点领域研究:土壤团聚体形成或破碎导致微生物可利用的有机碳的包被或释放,冻融过程微生物种群变化引起对不同氮素形态的利用效率差异.解决这些问题将可以进一步丰富土壤温室气体产排领域的研究内容和理论体系.     

Modelling volatility of growth rate in atmospheric carbon dioxide concentrations in a Bayesian approach

Atmospheric gases, such as carbon dioxide, ozone, methane, nitrous oxide, and etc., create a natural greenhouse effect and cause climate change. Therefore, modelling behavior of these gases could help policy makers to control greenhouse effects. In a Bayesian framework, we analyse and model conditional variance of growth rate in atmospheric carbon dioxide concentrations (ACDC) using monthly data from a subset of the well known Mauna Loa atmosphere carbon dioxide record. The conditional variance of ACDC monthly growth rate is modelled using the autoregressive conditional heteroscedasticity (ARCH), generalized ARCH model (GARCH) and a few variants of stochastic volatility (SV) models. Smooth transition ARCH and GARCH models are shown to be able to capture the dynamics in the conditional variance in ACDC level growth rate and to improve the forecast performance of ACDC growth rate.     

Revisiting the carbon emissions hypothesis in the developing and developed countries: a new panel cointegration approach

Environmental and Ecological Statistics - Since global warming worsens with economic development and emitted CO2 is one of the main greenhouse gases, it is important to understand...     

Greenhouse Gases as Clues to Permanence of Farmlands

Abstract:  Farmlands are expansive, diverse, and intensively managed ecosystems. These lands, so critical to human welfare, are threatened by growing stresses as demand for food escalates, fresh water wanes, cheap fuels deplete, and other uses jostle for space. With these coming pressures, how can we foster permanence on the lands that sustain us? In this essay I contemplate the hypothesis that the greenhouse gases, because they emanate from the interwoven flows of C, N, and energy in ecosystems, can help steer us toward permanence (sustainability). Alongside other indicators these emissions may detect the ecosystem's pulse, alerting us to inefficiencies and guiding us to better practices. To be effective signals, however, the greenhouse gases will need to be considered in their local settings, monitored longer and in more "listening places," and measured across boundaries of disciplines and biomes. This approach may help reduce greenhouse gas emissions from our farmlands. But we may find that, in the long run, the main beneficiaries of our inquiry have been, not just the atmosphere, but our fragile lands, perhaps in ways we cannot yet foresee.     

杀虫剂对土壤温室气体排放的影响

在室内培养条件下,研究了在施用尿素的土壤（有效氮质量分数为200 mg·kg^-1）中分别添加不同剂量（在5、10和50 mg·kg^-1）的吡虫啉和毒死蜱2种杀虫剂时,杀虫剂对土壤温室气体CO2、N2O和CH4排放过程的影响。结果表明：和空白相比,施用尿素明显地增加了土壤中温室气体N2O和CO2的排放量,但对CH4的排放无明显影响。当施用5 mg·kg^-1吡虫啉时,土壤中N2O和CO2排放总量和尿素处理相比无明显差异,但吡虫啉用量上升至10和50 mg·kg^-1时则显著降低了温室气体N2O和CO2的排放量（P〈0.05）,N2O排放量分别降低了26.89%和53.10%,CO2排放量分别降低15.14%和13.79%。毒死蜱在5、10和50 mg·kg^-1三种用量时土壤的N2O排放量与尿素处理相比均无明显差异。毒死蜱在5和10 mg·kg^-1用量时则明显抑制了土壤CO2的排放（p〈0.05）,分别比尿素处理降低了19.88%和19.02%;用量上升到50 mg·kg^-1用量时,土壤的CO2排放量与尿素处理相比无差异。吡虫啉和毒死蜱对CH4排放量均没有明显影响。可见,杀虫剂施用明显影响到土壤温室气体的排放,但不同杀虫剂品种及其用量的效应也存在明显差异。     

Estimation of methane emitted by natural wetlands of Orissa: Based on case studies on three representative wetlands

The rapid increase in the concentration of greenhouse gases in our atmosphere has led to significant changes in global climate. Methane is second to carbon dioxide in terms of its contribution to global warming. The wetlands serve as a major natural source of methane. Orissa State, located on the east coast of India, has a number of natural wetlands. Three representative wetlands: Chilka – the largest semi-saline lake of Asia, Anshupa – a land-locked fresh water lake and Gahirmatha – a tidal flood plain of Bhitara Kanika region that has sprawling mangrove vegetation (extension of the Sunderbans of the Gangetic delta) were chosen for intensive monitoring of water and sediment quality, along with methane flux over a period of three years during 1997–2000. The average seasonal methane fluxes were integrated to arrive at the annual flux from each wetland category. Finally, those results were extended to other natural wetlands of Orissa to arrive at the average annual methane flux of Orissa State. This is useful in calculating the total budget of greenhouse gases of India.     

中国温室气体排放清单信息库软件及网页的开发

中国温室气体排放清单信息库软件是基于《ＩＰＣＣ导则》１９９５年版本提供的方法设计的。与清单相关的网页将为国际互联网用户提供三项内容的服务：清单简介,中国若干年温室气体排放清单,以及排放清单信息库软件的下载。     

土壤中溶解性有机质的环境特性与行为

本文就土壤中溶解性有机质(DOM)的吸附-解吸特性、迁移-转化特性及其影响因素、DOM对重金属吸附-解吸及生物毒性的影响、DOM对农药等有机污染物吸附-解吸及生物可降解性的影响进行了评述。同时，对DOM与水体富营养化的关系及DOM对温室气体排放的影响进行了探讨。     

吉林西部盐碱水田区全球变暖潜势研究

为了探讨吉林西部土地整理工程对区域全暖所做贡献,基于实测的水田土壤温室气体数据,进行区域温室气体排放分析,为进一步评估水田开发对全球变暖的影响提供科学依据。以吉林省西部盐碱水田区为研究对象,将野外调查采样和小区试验相结合,采集了水田的0-30 cm表层土壤样品带回进行小区实验。在小区内挖取100 cm×100 cm×50 cm的坑,在土坑底部铺设塑料布后,将从采样点带回的土壤填进坑内灌水,种植水稻,6块样地分别为不同开发年限,其处置模式与前郭当地的水肥管理相同,样地周围挖掘了排水渠。通过静态箱-气相色谱法监测水稻生长期土壤所释放的温室气体 CH4,N2O 和CO2,计算水稻不同生长时期温室气体排放量及贡献率,估算研究区的区域变暖潜势（GWP）,结合30年水田面积变化加权法分析温室气体GWP贡献率。结果表明：水田生长期温室气体排放总量（以CO2气体计）随着开发年限的增加呈递增趋势,水田开发过程中CO2、CH4和N2O各时期温室气体排放的贡献率都有一定变化,CO2气体排放贡献率占主导地位在80%左右,CH4的贡献率16.69%-20.39%,是N2O的14-22倍,水田CH4气体的排放对研究区综合温室效应有较大贡献,水田开发初期N2O气体贡献率较成熟水田相比较高。在水稻生长旺盛期CO2气体贡献率下降明显,CH4气体贡献率显著升高,N2O气体贡献率变化不大,在返青期和成熟期CH4和N2O 2种气体贡献率均较小,其中,除成熟期外新开发水田的CH4气体贡献率均高于成熟水田,在水稻生长发育较快速的分蘖期、拔节孕穗期和抽穗开花期,CO2气体贡献率下降且降幅明显,该阶段CH4气体对温室效应的贡献比重加大,远高于N2O气体。在水稻成熟期,3种温室气体的贡献率与其他时期相比发生较大变化,CH4比 N2O 略有优势,CO2所占比例恢复至95%。?     

Uncertainty analysis of climate change mitigation options in the forestry sector using a generic carbon budget model

Industrialized countries agreed on a reduction of greenhouse gas emissions under the Kyoto Protocol. Many countries elected forest management activities and the resulting net balance of carbon emissions and removals of non-CO₂ greenhouse gases by forest management in their climate change mitigation measures. In this paper a generic dynamic forestry model (FORMICA) is presented. It has an empirical basis. Several modules trace C pools relevant for the Kyoto Protocol and beyond: biomass, litter, deadwood and soil, and harvested wood products. The model also accounts for the substitution of fossil fuels by wood products and bioenergy.     

中国农田N_2O排放量的估算

排放量估算是温室效应气体研究的重要内容。本文论述了影响农田Ｎ２Ｏ排放量估算准确性的因素，讨论如何提高农田Ｎ２Ｏ排放量估算的准确性，并估算了中国农田Ｎ２Ｏ排放总量。