气候变化背景下中国农业气候资源变化Ⅳ.黄淮海平原半湿润暖温麦-玉两熟灌溉农区农业气候资源时空变化特征

基于中国黄淮海平原半湿润暖温麦-玉两熟灌溉农区66个气象台站1961-2007年的气候资料,比较分析了该区域内1961-1980年和1981-2007年2个时段喜凉作物和喜温作物温度生长期长度以及温度生长期内的活动积温、日照时数、降水量、参考作物蒸散量和干燥度等农业气候资源的时空变化特征.结果表明： 随着气候变暖,与1961-1980年的平均状况相比,1981-2007年研究区域喜凉作物和喜温作物温度生长期均呈延长趋势,分别延长了7.4和6.9 d;≥0 ℃和≥10 ℃积温总体表现为增加趋势,其气候倾向率分别为4.0～137.0和1.0～142.0 ℃·d·(10 a)^-1;喜凉作物和喜温作物温度生长期日照时数均呈显著下降趋势;全区仅安徽省北部和河南省东南部喜凉作物和喜温作物温度生长期内降水量呈增加趋势,其他地区均呈减少趋势,且以河北省、山东省北部的减幅最明显;全区大部分区域喜凉作物和喜温作物温度生长期内参考作物蒸散量呈下降趋势,干燥度呈增加趋势.     

气候变化背景下中国农业气候资源变化Ⅲ.西北干旱区农业气候资源时空变化特征

基于1961-2007年中国西北干旱区78个气象台站的气象资料,分析了西北干旱区全年、喜凉作物和喜温作物温度生长期内热量、光照和水分的时空变化特征.结果表明：研究期间,西北干旱区年均气温呈上升趋势,其气候倾向率为0.35 ℃·(10 a)^-1;喜凉作物和喜温作物温度生长期内积温总体呈升高趋势,其气候倾向率分别为67和50 ℃·d·(10 a)^-1;研究区大部站点的年日照时数呈明显下降趋势,除新疆大部地区和宁夏平原以东的喜凉作物和喜温作物温度生长期内日照时数呈降低趋势外,其余地区均呈升高趋势;研究区大部地区的全年参考作物蒸散量呈下降趋势,而喜凉作物和喜温作物温度生长期内的参考作物蒸散量则表现为研究区西部下降、东部上升.与1961-1980年相比,1981-2007年研究区大部地区全年及喜凉作物和喜温作物温度生长期内的降水量呈增加趋势,其增幅的空间变化趋势均由西北向东南递减.     

气候变化背景下中国农业气候资源变化Ⅶ.青藏高原干旱半干旱区农业气候资源变化特征

基于青藏高原干旱半干旱区1961-2007年55个气象站点地面观测资料,利用五日滑动平均法及GIS软件的IDW模块进行栅格处理,对比分析了研究区1961-1980年（时段Ⅰ）和1981-2007年（时段Ⅱ）各气候要素的时空变化特征及其气候倾向率.结果表明：1961-2007年,研究区喜凉作物生长季内日照时数的变化不明显,喜温作物生长季内日照时数呈增加趋势,但空间分布的变化较小;与时段Ⅰ相比,时段Ⅱ喜温作物生长季内积温值≥1500 ℃·d的地区面积扩大33.9%;降水量的空间分布总体表现为由东南低地向西北内陆逐渐递减,研究期间青藏高原东南部喜凉作物生长季内降水量均达到800 mm,其他地区喜凉作物生长季内降水量的气候倾向率有正有负,变幅相对较小,与时段Ⅰ相比,时段Ⅱ喜温作物生长季内降水量≥400 mm的分布面积扩大了40%;参考作物蒸散量（ET₀）总体略有增加,其空间分布格局与日照时数和积温的分布相似,时段Ⅱ较时段Ⅰ喜温作物生长季内ET₀≥400 mm的分布面积扩大了35.7%.研究期间,青藏高原作物生长季内的热量与降水资源有一定幅度增加,这对农牧业生产非常有利,但ET₀的增大表明潜在蒸发增大,需进一步加强研究气候变化对该区域农牧业生产带来的可能影响.     

长江中下游地区农业气候资源时空变化特征

以1981年为时间节点,将1961-2007年分为1961-1980年（时段Ⅰ）和1981-2007年（时段Ⅱ）两个时间段,分析和比较两个时段的农业气候资源变化特征.结果表明：气候变暖背景下,长江中下游地区1961-2007年温度生长期内≥10 ℃积温气候倾向率平均为74 ℃·d·10 a^-1;时段Ⅱ≥10 ℃积温较时段Ⅰ平均增加了124 ℃·d;与时段Ⅰ相比,时段Ⅱ双季稻的安全种植界限向北推移了0.79个纬度.1961-2007年温度生长期内降水量总体表现为增加趋势;与时段Ⅰ相比,时段Ⅱ降水量增加了1.6%,降水量≥767 mm（双季稻正常生长的需水量）的面积增加了1.13×10.4 km².时段Ⅱ温度生长期内日照时数较时段Ⅰ平均减少了8.1%;近47年中91.1%的气象站点日照时数表现为减少趋势.与时段Ⅰ相比,时段Ⅱ温度生长期内参考作物蒸散量呈略微减少趋势,其低值区扩大、高值区缩小.时段Ⅱ稳定通过10 ℃初日平均较时段Ⅰ提前了2 d,而时段Ⅱ≥20 ℃终日平均较时段Ⅰ推迟了2 d,两个时段 ≥22 ℃终日基本相同.     

气候变化背景下中国农业气候资源变化Ⅰ.华南地区农业气候资源时空变化特征

基于华南地区1961-2007年66个气象台站的地面观测资料,对华南地区全年及温度生长期内热量、光照和水分的时空变化特征进行了分析.结果表明：1961-2007年,华南地区年均气温以0.20 ℃·（10 a）^-1的趋势上升,温度生长期内积温的气候倾向率［平均为98 ℃·d·（10 a）^-1］由北向南递增;1981-2007年,6200～7500 ℃·d和7500～8000 ℃·d积温带面积分别较1961-1980年增加了1.5×10⁴和4.7×10⁴ km².研究期间,华南地区全年和温度生长期日照时数分别以-57和-38 h·（10 a）^-1的速率递减;与1961-1980年相比,1981-2007年全年和温度生长期内≥1800 h日照时数的区域面积均呈减少趋势.全年和温度生长期降水量均呈略微增加趋势,但不同地区的增减幅度明显不同.全年及温度生长期分别有62%和52%站点参考作物蒸散量的气候倾向率为负值;与1961-1980年相比,1981-2007年全年和温度生长期参考作物蒸散量均表现为高值区缩小、低值区扩大.全年湿润指数的平均气候倾向率为0.01·（10 a）^-1,70%站点的年湿润指数呈上升趋势;与1961-1980年相比,1981-2007年温度生长期内湿润指数增加了0.02,53%站点的气候倾向率为正值.研究期间华南地区气候变化总体表现为暖湿趋势,这将对该地区作物种植制度、作物产量和农业结构等产生影响.     

气候变化背景下中国农业气候资源变化Ⅱ.西南地区农业气候资源时空变化特征

基于1961—2007年中国西南地区88个气象台站的地面观测资料,结合统计方法和GIS软件,分析了全年及温度生长期内农业气候资源的时空变化特征.结果表明:1961—2007年,西南地区年平均气温呈上升趋势,平均增速为0.18℃.(10 a)-1;温度生长期内≥10℃和≥15℃积温均呈增加趋势,平均增速分别为55.3℃.d.(10 a)-1和37℃.d.(10a)-1.全区年日照时数呈现由西向东逐渐减少的特征,且东部的减少趋势较西部更显著;温度生长期内日照时数整体呈增加趋势,但空间差异较大.全区降水资源总体减少,年降水量和温度生长期内降水量的平均下降速率分别为10 mm.(10 a)-1和8 mm.(10 a)-1.全区年参考作物蒸散量普遍降低,其减幅小于年降水量的变化趋势,约53%的站点温度生长期内参考作物蒸散量减少.     

气候变化背景下我国东北三省农业气候资源变化特征

基于1961-2007年中国东北三省72个气象台站的气象资料,分析了东北三省全年及温度生长期内的平均气温、≥10 ℃积温、降水量、日照时数和参考作物蒸散量等农业气候资源的变化特征.结果表明：研究期间,东北三省年均气温总体呈升高趋势,其气候倾向率为0.38 ℃·10 a^-1;温度生长期内≥10 ℃积温同样呈上升趋势,且积温带逐渐北移东扩,全区高于3200 ℃·d积温带面积增加了2.2×10⁴ km²,2800～3200 ℃·d积温带北移0.85°、东移0.67°,2400～2800 ℃·d积温带北移1.1°;东北三省年日照时数显著下降,且以松嫩平原东部、吉林省中西部平原、辽河平原西部的减少尤为明显,全区年日照时数高于2800 h的区域面积由13.6×10⁴ km²缩小到4.1×10⁴ km²,2600～2800 h的区域向西推进了1.5°;全区温度生长期内日照时数平均为1174 h,与1961-1980年相比,1981-2007年温度生长期内的日照时数高值区明显减少,日照时数1200～1400 h的区域向西推进了0.9°;1961-2007年间,研究区年降水量及温度生长期内降水量均呈下降趋势;黑龙江省全年参考作物蒸散量整体呈增加趋势,吉林省中西部平原区有所减小、东部山区呈增加趋势,辽宁省均呈减小趋势,与1961-1980年的年均值相比,1981-2007年年参考作物蒸散量高于900 mm区域向西推移了约1°;黑龙江省和吉林省绝大部分区域温度生长期内参考作物蒸散量逐年增加,而辽宁省绝大部分区域以小于14 mm·10 a^-1的幅度在减少.     

东北三省水稻生长季农业气候资源及障碍型冷害的时空特征

基于东北三省1981—2017年逐日地面观测资料和农业气象观测站水稻生育期资料,结合水稻障碍型冷害指标,分析东北三省水稻生长季特别是孕穗-开花期光、温、降水资源以及障碍型冷害的时空分布特征。结果表明: 1981—2017年,东北三省水稻生长季农业气候资源呈暖干变暗趋势,≥10 ℃活动积温和日照时数增幅分别为73.5 ℃·d·(10 a)^-1和17.7 h·(10 a)^-1,降水量减幅为8.9 mm·(10 a)^-1。水稻孕穗期,农业气候资源呈暖干变暗趋势,日平均温度升幅为0.27 ℃·(10 a)^-1,日照时数和降水量降幅分别为2.06 h·(10 a)^-1和1.90 mm·(10 a)^-1;水稻开花期,农业气候资源呈暖湿变暗趋势,日平均温度增幅为0.12 ℃·(10 a)^-1,日照时数减幅为0.83 h·(10 a)^-1,与孕穗期相反,水稻开花期降水量呈增加趋势,增幅为1.35 mm·(10 a)^-1。气候变暖背景下,水稻障碍型冷害发生频率和强度在大部分地区呈减少趋势,发生频率和强度存在显著的年代际变化特征。研究期间,黑龙江省孕穗开花期发生障碍型冷害次数最多,强度最高,吉林省次之,辽宁省最少。     

近50年山东省农业气候资源变化特征

利用山东省90个气象站1961-2010年逐日气象观测数据,比较分析了该区域冬小麦和夏玉米生长季光、热、水等农业气候资源的时空变化特征.结果表明: 研究期间,山东省冬小麦和夏玉米生长季各项气温指标均呈显著升高趋势,冬小麦生长季升高趋势更明显;日照时数显著减少;降水量和干燥度无显著变化;夏玉米生长季蒸散量显著减少.冬小麦和夏玉米生长季各农业气候资源呈大致的经向或纬向递增或递减的空间分布.不同区域各农业气候资源历年变化特征差异明显,鲁西地区各气温指标升高趋势较弱,鲁中和鲁西南地区日照时数减少趋势最显著,鲁西地区蒸散量和干燥度减少趋势最显著,鲁中和鲁东南地区冬小麦生长季降水量增加趋势较明显,鲁中和鲁南地区夏玉米生长季降水量增加趋势较明显.山东省热量资源的增加有利于冬小麦生长季各阶段的发育,但植物病虫害的防治难度及农作物遭受高温热害的风险加大,日照时数减少不利于农作物生长期的光合作用,蒸散量减少则有利于土壤水分的保存.
     

气候变化背景下中国农业气候资源变化Ⅴ.宁夏农业气候资源变化特征

基于1961—2009年宁夏21个气象站点的气象资料,分析了宁夏各区农业气候资源的时空变化趋势.结果表明：研究期间,宁夏各地气温逐渐升高,呈北高南低的空间分布特征,年均气温的气候倾向率为0.4 ℃·(10 a)^-1;大部分地区年降水量呈逐渐减少趋势,年降水量的气候倾向率为4.26 mm·(10 a)^-1;无霜期和作物生长季天数随着气候变暖逐渐延长;≥10 ℃积温在3200 ℃·d以上的区域向南扩展,宁夏适宜种植中晚熟水稻的区域有所扩大;2001—2009年,宁夏大部分地区适宜种植冬小麦,全区各地几乎都适宜种植春小麦;宁夏南部山区各地7月平均气温≤20 ℃的区域面积逐渐缩小,适宜种植马铃薯的地域也随之缩小.     

Changes of China agricultural climate resources under the background of climate change: IX. Spatiotemporal change characteristics of China agricultural climate resources

Based on the 1961-2007 ground surface meteorological data from 558 meteorological stations in China, this paper analyzed the differences of agricultural climate resources in China different regions, and compared the change characteristics of the agricultural climate resources in 1961-1980 (period I) and 1981-2007 (period II), taking the year 1981 as the time node. As compared with period I, the mean annual temperature in China in period II increased by 0.6 degrees C, and the > or = 0 degrees C active accumulated temperature in the growth periods of chimonophilous crops and the > or = 10 degrees C active accumulated temperature in the growth periods of thermophilic crops increased averagely by 123.3 degrees C x d and 125.9 degrees C x d, respectively. In 1961-2007, the mean annual temperature increased most in Northeast China, and the > or = 10 degrees C active accumulated temperature in the growth periods of thermophilic crops increased most in South China. The whole year sunshine hours and the sunshine hours in the growth periods of chimonophilous crops and of thermophilic crops in period II decreased by 125.7 h, 32.2 h, and 53.6 h, respectively, compared with those in period I. In 1961-2007, the annual sunshine hours decreased most in the middle and lower reaches of Yangtze River, while the sunshine hours in the growth periods of chimonophilous crops and of thermophilic crops decreased most in North China and South China, respectively. In the whole year and in the growth periods of chimonophilous and thermophilic crops, both the precipitation and the reference crop evapotranspiration in this country all showed a decreasing trend, with the largest decrement in the precipitation in the whole year and in the growth periods of chimonophilous and thermophilic crops in North China, the largest decrement in the reference crop evapotranspiration in the whole year and in the growth periods of thermophilic crops in the middle and lower reaches of Yangtze River, and the largest decrement in the reference crop evapotranspiration in the growth periods of chimonophilous crops in Northwest China. In 1961-2007, the climate in China in the whole year and in the growth periods of thermophilic crops showed an overall tendency of warm and dry, and the climate in the growth periods of thermophilic crops became warm and dry in Southwest China, North China, and Northeast China, but warm and wet in the middle and lower reaches of Yangtze River, Northwest China, and South China, whereas the climate in the growth periods of chimonophilous crops became warm and dry in North China, but became warm and wet in Northwest China.     

Changes of China agricultural climate resources under the background of climate change. III. Spatiotemporal change characteristics of agricultural climate resources in Northwest Arid Area

By using the 1961-2007 daily weather data from 78 meteorological stations in Northwest Arid Area, this paper analyzed the spatiotemporal characteristics of agricultural climate resources, i.e., heat, light, and precipitation, in the area, both in the whole year and in temperature-defined growth seasons of chimonophilous and thermophilic crops. In 1961-2007, the mean annual temperature in the area had an increasing trend, and the climate tendency rate was 0.35 degrees C x (10 a)(-1). The accumulated temperature in temperature-defined growth seasons of both chimonophilous and thermophilic crops also had an increasing trend, and the climate tendency rate was 67 and 50 degrees C d x (10 a)(-1), respectively. The annual sunshine hours in most stations of the research area had an obvious decreasing trend, but the sunshine hours during the temperature-defined growth seasons of chimonophilous and thermophilic crops had an increasing trend, except that in most regions of Xin-jiang and east Ningxia Plain. The annual reference evapotranspiration in most regions of the study area tended to decrease, while the reference evapotranspiration during temperature-defined growth seasons of chimonophilous and thermophilic crops tended to decrease in the west but increase in the east. Compared with that in 1961-1980, the precipitation both in the whole year and in temperature-defined growth seasons of chimonophilous and thermophilic crops in 1981-2007 increased, and the increment reduced progressively from the northwest to the southeast.     

Changes of China agricultural climate resources under the background of climate change. VII. Change characteristics of agricultural climate resources in arid and semi-arid region of Tibet Plateau

Based on the 1961-2007 ground observation data from 55 meteorological stations in arid and semi-arid region of Tibetan Plateau, and by using 5-day moving average method and ArcGIS-IDW module, this paper analyzed the spatiotemporal change characteristics and climatic trend rates of agricultural climate resources in the region in 1961-1980 (period I) and 1981-2007 (period II). In 1961-2007, the sunshine duration during the growth season of chimonophilous crops in the study region changed less, while that during the growth season of thermophilic crops increased but with little spatial change. Comparing with those in period I, the average value of accumulated temperature in period II showed an increasing trend, and the area with > or = 1500 degrees C x d during the growth season of thermophilic crops increased by 33.9%. The precipitation decreased gradually from southeast to northwest. During the growth season of chimonophilous crops, the precipitation in the southeast in the two periods reached 800 mm, but the climatic trend in other areas was positive or negative, and the change rate was small. The area with precipitation > or = 400 mm during the growth season of thermophilic crops in period II expanded by 40%, as compared in period I. The reference crop evapotranspiration (ET0) generally increased slightly, and shared the similar spatial distribution pattern with sunshine duration and accumulated temperature. During the growth season of thermophilic crops, the area with ET0 > or = 400 mm in period II expanded by 35.7%, compared with that in period I. In the study period, the heat and precipitation resources during crop growth seasons in Tibet Plateau increased in a certain degree, which was very beneficial to the agriculture-stock production. However, the increase of reference crop evapotranspitation indicated the increase of potential evaporation. Thereby, the researches about the possible effects of climate change on agriculture-stock production should be further strengthened.     

Changes of China agricultural climate resources under the background of climate change. IV. Spatiotemporal change characteristics of agricultural climate resources in sub-humid warm-temperate irrigated wheat-maize agricultural area of Huang-Huai-Hai Plain

Based on the 1961-2007 observation data from 66 meteorological stations in the sub-humid and warm-temperate irrigated wheat-maize agricultural area of Huang-Huai-Hai Plain, this paper analyzed the spatiotemporal change characteristics of agro-climate resources for chimonophilous and thermophilic crops in the area in 1961-1980 and 1981-2007. The analyzed items included the length of temperature-defined growth season and the active accumulative temperature, sunshine hours, precipitation, reference evapotranspiration, and aridity index during the temperature-defined growth season. With climate warming, the length of temperature-defined growth season of chimonophilous and thermophilic crops in the area in 1981-2007 extended by 7. 4 d and 6. 9 d, and the > or = 0 degrees C and > or = 10 degrees C accumulative temperature increased at a rate of 4.0-137.0 and 1.0-142.0 degrees C d (10 a)(-1), respectively, compared with those in 1961-1980. The sunshine hours during the temperature-defined growth season of the crops decreased markedly; and the precipitation during the temperature-defined growing season decreased in most parts of the area, being obvious in Hebei and north Shandong Province, but increased in north Anhui and southeast Henan Province. In most parts of the area, the reference evapotranspiration of chimonophilous and thermophilic crops during their temperature-defined growth season decreased, and the aridity index increased.