河南省春季气候变化及其对小麦产量构成要素的影响

目前有关气候变化及其对农作物产量影响的研究较多,而对产量构成要素的影响研究相对较少.本文利用自然正交函数(EOF)分解、相关分析、趋势倾向率分析等方法对河南省近30多年的气候和近20多年的小麦产量构成三要素--穗数、粒数、粒重进行了时空变化特征分析,在此基础上分析了春季气候变化对小麦产量及其构成要素的影响.结果表明全省春季平均气温、降水量、日照时数变化具有比较好的空间一致性,平均气温呈比较明显的上升趋势,降水呈不太明显的下降趋势,日照呈一定的下降趋势;小麦粒重和产量变化具有较好的空间一致性,而穗数、粒数则具有反位相空间变化特征,穗数、粒重及产量均呈明显的上升趋势,粒数呈抛物线变化趋势,其中1991年后呈明显上升趋势;平均气温的升温变化趋势有利于小麦粒重、穗数和最终产量的提高,但不利于粒数增加;降水变化趋势不利于粒重提高,对其他产量构成要素影响不明显;日照的变化对产量及各构成要素影响不明显.     

近50a开封市气候变化特征分析

利用开封市气象观测站1957-2007年的观测资料,分析了近50 a气候变化的特征,结果表明:开封市年平均气温呈上升趋势,春季气温呈波浪式平缓上升,夏季气温略有下降,秋季气温缓慢上升,冬季气温上升明显;年平均降水量变化趋势不明显,年际波动大,夏季降水呈上升趋势,冬春降水变化不明显,秋季降水下降明显;历年大风日数呈V型上升趋势,夏季上升明显,秋冬两季略有下降;年平均大雾日数呈明显上升趋势;年平均日照时数呈下降趋势,2000年后日照时数下降明显.     

1957～2004年盘锦芦苇湿地的气候变化特征分析

利用1957～2004年盘锦湿地常规气象资料,分析了盘锦湿地的日照、温度、降水和风速的变化特征。结果表明:日照时数的月变化呈双峰曲线,5月和9月表现为日照高峰,7月为日照低谷;近48 a盘锦湿地的年平均气温呈显著的上升趋势,冬季增温最明显,其次为春季,夏季增温最弱,年平均极端最低温度呈显著的上升趋势;近48 a的年平均风速呈显著的下降趋势,月平均风速变化趋势呈双峰曲线。     

琼中35年气候变化分析

利用琼中1971-2005年温度、降水、日照资料进行分析，得出：温度明显上升，日照略有增多，降水则呈下降趋势;不同季节气候变化不同，冬、春季温度回升明显，冬、春、秋季降水偏少；冬、春季气候呈暖干化趋势，对农业生产不利。     

柳州市糯玉米高产稳产的气象条件分析

通过分期播种试验得出糯玉米的单产、发育期天数、双苞率、穗行数、行粒数、秃顶度等产量因子。以确定高产量的形成与这些产量因子之间的关系:穗行数、行粒数的数值越大,产量就越高。秃顶度则相反,产量高秃顶度小,产量低秃顶度大;高积温易形成高产量,降水条件要求充足且分布均匀也有利于高产量的形成,在南方地区略少的日照有利于干物质的积累。同时分析了气象要素对穗长、穗行数、行粒数的影响:降水有利于高穗位的形成,日照则相反,秃顶度与雨日呈负相关,与日照呈正相关,穗行数与积温呈负相关。行粒数与积温呈正相关,与日照呈负相关。     

1960—2009年咸宁市气候变化特征

利用1960—2009年咸宁市3个地面气象站气象资料,统计分析近50 a来该区域气温、降水等主要气候要素的年变化、四季变化及年代际变化的趋势特征。结果表明：近50 a研究区气温有上升趋势,气候倾向率为0.23℃/10 a,年平均气温在20世纪90年代末发生突变。春秋季平均气温分别在2002年和1999年发生突变,夏季平均气温在2006年发生突变,冬季平均气温在1990年发生突变。春季与秋季平均气温的变化较一致,冬季平均气温对全球变暖响应最敏感,春季与秋季对气候变暖的响应较敏感,而夏季对气候变暖的响应最为迟缓。近50 a咸宁市年降水量呈波动但无明显增降的趋势,其中春夏两季变化趋势较为一致并有下降的趋势,且春夏降水量的变化主导着年降水量的变化;而冬季降水量有上升的趋势。通过对气温与降水变化趋势的比较,发现冬季对气候变化的响应最显著,其余季节无明显相关性。     

小麦灌浆与气象条件

小麦粒重是构成产量的三个因素(穗数、粒数、粒重)之一。影响小麦粒重的因素很复杂,如植株的营养状况、病虫害、气象因素等都可使粒重发生大幅度的变化。在北京地区,小麦籽粒形成和灌浆时期,旱季即将结束,雨季快要来临,气象要素变化较大,对籽粒的形成、灌浆以及粒重的影响非常明显。近几年,我们作了一些观测分析,概述如下。     

琼中35年气候变化分析

利用琼中1971~2005年温度、降水、日照资料进行分析,得出:温度明显上升,日照略有增多,降水则呈下降趋势;不同季节气候变化不同,冬、春季温度回升明显,冬、春、秋季降水偏少;冬、春季气候呈暖干化趋势,对农业生产不利。     

气象条件对2010年冬小麦生长发育的影响

根据冬小麦生长发育的农业气象指标,利用对比分析的方法得出影响2010年冬小麦产量构成的有利气象因素是:底墒水充足,各生育阶段降水分布适宜,土壤水分条件较好.在分(蘖)一越冬开始期平均气温偏低,冬前积温不足,不利于晚播小麦分集成穗.春季低温冷害对小麦小花分化有一定影响,但幼穗分化时间长,灌浆期温度适宜,光照充足,灌浆时间...     

1960-2009年咸宁市气候变化特征分析

利用1960-2009年咸宁市3个地面气象站气象资料,统计分析近50 a来该区域气温、降水等主要气候要素的年变化、四季变化及年代际变化的趋势特征。结果表明：近50 a研究区气温有上升趋势,气候倾向率为0.23℃/10a,年平均气温在20世纪90年代末发生突变。春秋季平均气温分别在2002年和1999年发生突变,夏季平均气温在2006年发生突变,冬季平均气温早在1990年发生突变。春季与秋季平均气温的变化比较一致,冬季平均气温对全球变暖响应最敏感,春秋与秋季对气候变暖的响应是比较敏感,而夏季对气候变暖的响应最为迟缓。近50 a年降水量呈波动但无明显增降的趋势,其中春夏两季变化趋势较为一致并有下降的趋势,且春夏降水量的变化主导着年降水量的变化;而冬季降水量有上升的趋势。通过对气温与降水变化趋势的比较,发现冬季对气候变化的响应最显著、其余季节无明显相关性。     

径流量干旱指数在河西走廊灌区的应用

利用径流量干旱指数以及河西地区的酒泉、张掖和武威的春小麦单产资料,探讨干旱指数的等级与去趋势春小麦产量之间的关系.研究结果表明,径流量干旱指数与河西灌溉区春小麦气候产量呈反位相的变化趋势.因此,可利用径流量干旱指数的变化来预测该地区未来春小麦产量变化趋势.     

近30年我国气候变化的不稳定性及其与农业生产的关系

引入信息论中熵值分析方法，利用全国七大区１９６１－１９９０年的气象和产量资料，讨论了近年平均气温，最高气温，最低气温和降水量的熵值时空变化类型。详细分析了我国气候变化的不稳定性，在此基础上，定性讨论了气候波动与农业气象灾害的关系及其对农业产量的影响，并分区建立了产量与气象要素熵的回归模型。     

Variations in cereal crop phenology in Spain over the last twenty-six years (1986–2012)

Over recent years, the Iberian Peninsula has witnessed an increase both in temperature and in rainfall intensity, especially in the Mediterranean climate area. Plant phenology is modulated by climate, and closely governed by water availability and air temperature. Over the period 1986–2012, the effects of climate change on phenology were analyzed in five crops at 26 sites growing in Spain (southern Europe): oats, wheat, rye, barley and maize. The phenophases studied were: sowing date, emergence, flag leaf sheath swollen, flowering, seed ripening and harvest. Trends in phenological response over time were detected using linear regression. Trends in air temperature and rainfall over the period prior to each phenophase were also charted. Correlations between phenological features, biogeographical area and weather trends were examined using a Generalized Lineal Mixed Model approach. A generalized advance in most winter-cereal phenophases was observed, mainly during the spring. Trend patterns differed between species and phenophases. The most noticeable advance in spring phenology was recorded for wheat and oats, the “Flag leaf sheath swollen” and “Flowering date” phenophases being brought forward by around 3 days/year and 1 day/year, respectively. Temperature changes during the period prior to phenophase onset were identified as the cause of these phenological trends. Climate changes are clearly prompting variations in cereal crop phenology; their consequences could be even more marked if climate change persists into the next century. Changes in phenology could in turn impact crop yield; fortunately, human intervention in crop systems is likely to minimize the negative impact.     

黄淮海地区植被活动对气候变化的响应特征

基于1982 -2003年GIMMSNDVI遥感数据和气象资料, 综合运用趋势分析、相关分析、奇异值分解等方法, 分析我国黄淮海地区植被活动对气候变化响应的时空特征。结果表明:黄淮海地区整体气候变暖趋势比较明显, 干旱化尚不显著, 年平均植被NDVI表现为略微增加的趋势。在年尺度上, 温度是敏感性最强的气候因子, 全年温度、降水、相对湿度对植被NDVI动态变化具有正效应, 而蒸发量具有负效应; 在季尺度上, 温度、降水的敏感性最强。自然植被对降水的敏感性最强, 其次是温度; 农业植被对温度的敏感性最强, 其次是降水。植被对气候变化响应的空间特征表现为, 植被主要生长季平均NDVI与温度距平场空间结构一致, 与蒸发量距平场反位相对应, 与降水量距平场呈北、南部正负相反分布, 与相对湿度距平场呈南、北向正负相反的空间分布。     

北方农牧交错带春小麦生育期对气候变化的响应——以内蒙古武川县为例

北方农牧交错带是气候变化的敏感地带,研究气候变化对农业生产的影响规律与农业生产的响应特征,对促进北方农牧交错带的农业可持续发展具有重要意义。以北方农牧交错带代表性站点--武川县为例,基于1960-2009年气象观测数据和1992-2010年春小麦农业气象观测数据,研究了气候变化与春小麦生育期变化之间的相互关系。结果表明,武川县1960-2009年年平均气温每10年升高0.43℃,春季稳定通过0℃的初日每10年提前0.98 d,当地满足春小麦播种温度的日期有提前的趋势,秋季稳定通过0℃的终日每10年推迟0.24 d,生长季具有延长趋势;1992-2010年作物生长季（4-8月）0～10 cm、10～20 cm土壤相对湿度有明显下降趋势,平均每10年分别下降18%和13%;播种期与0～10 cm和10～20 cm土壤相对湿度呈现显著负相关关系,表现为土壤相对湿度每降低1%,播种期分别推迟0.2 d和0.3 d;各生育期与播种期一样,受温度与水分综合作用的影响,不同生育期与二者之间关系不同,各生育期之间持续日数与二者呈正相关关系。研究得出,春小麦生育期的变化是各气侯因素综合作用的结果,在北方农牧交错带,水分对农作物生长发育具有较大影响,直接影响着春小麦的各个生育过程。     

气候变暖与天津粮食生产的关系

分析了近60年（1932—1989）天津气温与降水的变化，指出天津的增暖与北半球的增暖相当一致，冬季最明显；在80年代全球增暖期，天津夏季降水减少，春季与初夏降水增多；从气温和降水演变的周期性及全球增暖的背景分析，华北未来10年仍将持续温暖而干旱的气候。气候变暖对天津地区小麦和玉米的增产有利，而干旱使水稻的增产受到限制，夏季的增温与干旱对大豆增产不利。     

Crop yield response to economic, site and climatic variables

This paper examines the effects of climatic and non-climatic factors on the mean and variance of corn, soybean and winter wheat yield in southwestern Ontario, Canada over a period of 26 years. Average crop yields increase at a decreasing rate with the quantity of inputs used, and decrease with the area planted to the crop. Climate variables have a major impact on mean yield with the length of the growing season being the primary determinant across all three crops. Increases in the variability of temperature and precipitation decrease mean yield and increase its variance. Yield variance is poorly explained by both seasonal and monthly climate variable models. Projections of future climate change suggest that average crop yield will increase with warmer temperatures and a longer growing season which is only partially offset by forecast increases in the variability of temperature and rainfall. The projections would also depend on future technological developments, which have generated significant increases in yield over time despite changing annual weather conditions.     

甘肃省春小麦生态气候适宜度在适生种植区划中的应用

用甘肃省春麦区31个县区1970~2000年的旬平均气温、旬日照时数、旬降水量、≥0℃积温、海拔高度等建立春小麦生态气候适宜度隶属函数和综合适宜度，结果表明:春小麦对海拔高度适宜度在0.15~0.85之间，最小出现在定西和古浪，最大值在金塔和敦煌。≥0℃的积温适宜度与海拔高度适宜度趋势基本一致。旬平均气温适宜度在0.35~0.56之间，说明气温对春小麦生产较适宜。用积分回归分析春小麦在不同气候类区不同生育时段生态气候条件的贡献系数，温和平川绿洲灌区光、温、水要素的平均贡献系数最高，温暖沿沙漠绿洲灌区次之，冷凉浅山半灌溉区、温凉半干旱旱作区最小。用生态气候适应性对春小麦的影响程度和依赖度及产量，确定生态气候区划综合指标体系将春小麦划分出5级适生种植区划，并提出利用和开发生态气候资源有效途径。     

Storylines: an alternative approach to representing uncertainty in physical aspects of climate change

Investigating the relationships between climate extremes and crop yield can help us understand how unfavourable climatic conditions affect crop production. In this study, two statistical models, multiple linear regression and random forest, were used to identify rainfall extremes indices affecting wheat yield in three different regions of the New South Wales wheat belt. The results show that the random forest model explained 41–67% of the year-to-year yield variation, whereas the multiple linear regression model explained 34–58%. In the two models, 3-month timescale standardized precipitation index of Jun.–Aug. (SPI_JJA), Sep.–Nov. (SPI_SON), and consecutive dry days (CDDs) were identified as the three most important indices which can explain yield variability for most of the wheat belt. Our results indicated that the inter-annual variability of rainfall in winter and spring was largely responsible for wheat yield variation, and pre-growing season rainfall played a secondary role. Frequent shortages of rainfall posed a greater threat to crop growth than excessive rainfall in eastern Australia. We concluded that the comparison between multiple linear regression and machine learning algorithm proposed in the present study would be useful to provide robust prediction of yields and new insights of the effects of various rainfall extremes, when suitable climate and yield datasets are available.     

Combined Impact of Climate Change,Cultivar Shift,and Sowing Date on Spring Wheat Phenology in Northern China

Distinct climate changes since the end of the 1980 s have led to clear responses in crop phenology in many parts of the world. This study investigated the trends in the dates of spring wheat phenology in relation to mean temperature for different growth stages. It also analyzed the impacts of climate change, cultivar shift, and sowing date adjustments on phenological events/phases of spring wheat in northern China(NC).The results showed that significant changes have occurred in spring wheat phenology in NC due to climate warming in the past 30 years. Specifically, the dates of anthesis and maturity of spring wheat advanced on average by 1.8 and 1.7 day(10 yr)~(-1). Moreover, while the vegetative growth period(VGP) shortened at most stations, the reproductive growth period(RGP) prolonged slightly at half of the investigated stations. As a result, the whole growth period(WGP) of spring wheat shortened at most stations. The findings from the Agricultural Production Systems Simulator(APSIM)-Wheat model simulated results for six representative stations further suggested that temperature rise generally shortened the spring wheat growth period in NC.Although the warming trend shortened the lengths of VGP, RGP, and WGP, the shift of new cultivars with high accumulated temperature requirements, to some extent, mitigated and adapted to the ongoing climate change. Furthermore, shifts in sowing date exerted significant impacts on the phenology of spring wheat.Generally, an advanced sowing date was able to lower the rise in mean temperature during the different growth stages(i.e., VGP, RGP, and WGP) of spring wheat. As a result, the lengths of the growth stages should be prolonged. Both measures(cultivar shift and sowing date adjustments) could be vital adaptation strategies of spring wheat to a warming climate, with potentially beneficial effects in terms of productivity.