气候变化背景下湖北省高温干旱复合灾害变化特征

利用湖北省76个国家气象站1961—2022年地面气象观测资料,基于气象干旱综合监测指数(Meteorological Drought Composite Index,MCI)和有效降水指数(Effective Precipitation,EP)识别湖北省历年干旱和洪涝过程,分析近62 a旱涝过程频次时空变化和旱涝年、旱涝转换特征以及2010年以来旱涝特点。结果表明：湖北省旱涝频发区总体呈东涝西旱、南涝北旱的片状分布。干旱和暴雨洪涝发生频次分别呈现波动式下降、上升趋势。干旱主要发生在春季和伏秋季,发生频次总体呈减少趋势,但夏秋干旱以及极端干旱有趋多增强的态势;暴雨洪涝主要集中在夏季,发生频次呈增多趋势。旱涝年年际间呈现连旱2~4 a、连涝2~3 a或旱涝交替的特征,部分年份年内旱涝并存、旱涝急转,2010年以来无旱涝并存年。旱涝转换站数年际间波动较大,呈现5个阶段性上升特征,各递增阶段最大站数呈递减趋势。2010年以来旱涝呈现极端性增强、骤发性增多及连旱连涝的特点。

     

基于问题解决的跨学科教学设计与实施——以“智慧农业基地作物种植”为例

为了强化课程协同育人的功能,落实实践育人的理念,探索初中地理、生物、劳动跨学科主题学习模式。本文以“智慧农业基地作物种植”为教学主题,以“智慧农业基地适合种什么作物以及怎么种”为核心任务,引导学生自主设计活动流程和问题链,综合利用多学科知识发现和解决问题,提高高阶思维和实践能力,促进综合素养的发展。     

黄河、辽河三角洲农业发展的比较研究

黄河三角洲和辽河三角洲是中国北方两个有代表性的大河三角洲，通过比较农业发展的自然条件，结构状况，历史和发展趋势，分析了它们的共性和差异，在此基础上提出了中国北方三角洲实现农业可持续发展的途径；通过水土整治工程，形成农业可持续发展的环境条件和基础设施，通过生态农业和生态工程，形成农业可持续发展的技术模式和良性循环，通过结构调整和农村经济社会的发展，形成农业可持续发展的宏观调控和支持保障系统。     

中国农业氧化亚氮排放情景研究

采用国际应用系统分析研究所的"牲畜和粮食产量动态模型",模拟出2000-2030年间中国粮食和牲畜的数量和需求量的地理分布,然后应用GAINS模型预测我国未来农业N2O排放量。结果显示,2000年我国农业N2O排放量为1533ktN2O,到2030年将增加到2000ktN2O左右,增长31%;农田N2O排放占农业N2O总排放量的80%,2030年农田N2O的排放量比2000年增长37%。由于活动水平数据的模拟结果不同,各情景的N2O排放量不同,其中INMIC_低情景中N2O的排放量稍高于中、高排放情景。我国农业N2O排放主要集中在山东、河南、四川、河北,江苏、湖南、云南、安徽等省,到2030年,黑龙江、内蒙古、新疆、云南和湖南五省的N2O增加量在30ktN2O以上。硝化抑制剂作为N2O的减排措施,从2015年开始实施,减排效率由4%上升到16%。采用IPCC默认排放因子会高估我国农田N2O排放。     

中国南方调整水稻种植格局——一种水稻生产预先适应气候变化的选择(英文)

Rice planted in southern China accounts for 94% of the total in sown acreage and 88% of the total in production, which matters a lot to Chinese food security. However, due to the prolonged conflict between water availability and rice growth in spatial/temporal distribu-tion, rice production suffers from seasonal drought at acreage of 16%-22%, which compro-mises food production capacity and food security. Focusing on the spatial distribution of seasonal drought with rice and the practices to adapt to it, and based on an analysis of bal-anced water supply for and demand by rice at a growing season scale during 1981-2030, this paper assesses the changing seasonal drought in the process of rice production under the changing climate in the future, and identifies general rice re-cultivation options for climate change adaptation. Some conclusions can be drawn as follows. (1) Rice suggests a decline in seasonal drought, with early season rice (early rice hereafter) by 12,500 km2, middle season rice (middle rice) by 80,000 km2, and in particular late season rice (late rice) by 25,000 km2, which accounts for almost 20% of its cultivated acreage. It is indicated that due to climate change, seasonal drought in major rice producing areas tends to alleviate in general, late season rice in particular. (2) Future climate change brings about a significant impact on the spatial/temporal distribution of water resources in rice producing areas in China. Based on ’pre-designed’ adaptation actions for rice-re-cultivation, the rice cultivation pattern undergoes a significant alteration between 1981-2000 and 2001-2030. In eastern Guizhou and western Hunan, the pattern of single early plus single dry farming is changed into double cropping. In eastern Hunan, the pattern of dry cropping is changed into single early plus single dry farming. In northern Anhui, the pattern of dry farming cropping is changed into middle rice. All this is aimed at a potential adequate availability of water for rice production in the future. (3) Rice re-cultivation patterns developed in this paper help re-balance water demand and supply for rice growth using the spatial analysis tool to adapt rice growth to the changing water avail-ability from spatial perspective, and come up with rice producer-friendly re-cultivation options in response to climate change.     

钻探微机监测系统抗干扰设计实用技术

本文介绍了钻探微机监测系统硬件设计原理和硬件抗干扰设计的有关实用技术。     

A relationship between solar activity and frequency of natural disasters in China

The relationship between the length of the solar cycle, a good indicator of long-term change in solar activity, and natural disasters (drought, flood, and strong earthquakes) in China during the last 108 years is analyzed. The results suggest that the length of solar cycle may be a useful indicator for drought/flood and strong earthquakes. When the solar activity strengthens, we see the length of the solar cycle shorten and more floods occur in South China and frequent strong earthquakes happen in the Tibetan Plateau,but the droughts in East China as well as the strong earthquakes in Taiwan and at the western boundary of China are very few. The opposite frequencies occur when the solar activity weakens. The current study indicates that the solar activity may play an important role in the climate extremes and behavior in the lithosphere.     

农业干旱风险研究进展

农业干旱风险分析是近年来兴起的一个新的研究领域,这一研究不仅是农业旱灾风险管理的基础和前提,也是农业干旱风险区划和灾前损失预评估的理论基础。本文系统阐述了农业旱灾风险的内涵及构成要素、风险分析体系及研究现状,在此基础上指出,依据自然灾害风险分析基本原理,从农业旱灾危害性以及承灾体脆弱性角度系统地建立农业旱灾综合风险分析程序框架和指标体系,尤其是开发针对每一风险要素的、动态的数学模型和指标体系是当前干旱灾害风险时空格局研究的当务之急。     

数字国土

近日,联合国粮农组织发布的最新研究报告指出,土地退化正在全球众多地区呈现加重和扩大的趋势,由此将造成15亿直接依靠土地生存人口的生计受到影响。随之而来的将是农业产量下降、粮食短缺、人口迁移、生态系统被破坏以及生物多样性丧失等连锁恶性反应。