Olive tree phenology and climate variations in the Mediterranean area over the last two decades     

Fabio Orlandi  H. Garcia-Mozo  A. Ben Dhiab  C. Galán  M. Msallem  M. Fornaciari 《Theoretical and Applied Climatology》2014,115(1-2):207-218

The flowering characteristics of plant species of economic interest and the influence of climate on them are of great importance considering the implications for fruit setting and the final harvest: Olive is one of the typical species of the Mediterranean habitat. We have investigated the timing of olive full flowering during the anthesis period and flowering intensity over a period of 20 years (1990–2009), in three major cultivation areas of the Mediterranean basin: Italy, Spain and Tunisia. The importance of these characteristics from a bioclimatic point of view is considered. The biological behaviour was studied to determine its main relationships with temperature and water availability, considering also the different sub-periods and the bio-climatic variations during the study period. The flowering dates and pollen emissions show different behaviours for the Spanish monitoring area in comparison with the other two olive cultivation areas. In the Italian and Tunisian areas, the flowering period over the last decade has become earlier by about 5 and 7 days, respectively, in comparison to the previous decade. Moreover, pollen emissions have decreased in Perugia (Italy) and Zarzis (Tunisia) over the period of 2000–2009, while in Cordoba (Spain), they showed their highest values from 2005 to 2009. The climate analysis has shown an increase in temperature, which results in an increase in the growing degree days for the growth of the olive flower structures, particularly in the more northern areas monitored. Although the olive tree is a parsimonious water consumer that is well adapted to xeric conditions, the increase in the potential evapotranspiration index over the last decade in the Italian and Tunisian olive areas might create problems for olive groves without irrigation, with a negative influence on the flowering intensity. Overall, in all of these Mediterranean monitoring areas, the summer water deficit is an increasingly more important parameter in comparison to the winter parameters, which confirms that the winter period is not as limiting as the summer period for olive tree cultivation in these Mediterranean areas.  相似文献   

Relationship between olive flowering and latitude in two Mediterranean countries (Italy and Tunisia)     

F. Orlandi  M. Msallem  T. Bonofiglio  A. Ben Dhiab  C. Sgromo  B. Romano  M. Fornaciari 《Theoretical and Applied Climatology》2010,102(3-4):265-273

In phenological studies, the plant developments are analysed considering their relationships with seasonal meteorological conditions; moreover, the influences of geographical features on biological responses have to be also considered. Different studies analysed the influence of latitude on phenological phases to investigate the possible different magnitude of biological response. In our experience, this type of geographic evaluation was conducted considering one of the more important plant species of Mediterranean shrub, the olive (Olea europaea L.) in fifteen olive monitoring stations, four located in Tunisia and eleven in Italy, from the southern Zarzis area at 33° to the northern Perugia area at 43° of latitude. The olive flowering phenomenon was studied, utilising an aerobiological monitoring method through appropriate pollen traps located inside olive groves from 1999 to 2008. The olive monitored pollen grains were recognised and evaluated to obtain daily pollen concentrations to define the flowering dates in the different study areas. The biometeorological statistical analysis showed the 7°C threshold temperature and the single triangle method for growing degree days (GDD) yearly computing as the better ones in comparison to others. Moreover, the regression analysis between the dates of full flowering and the GDD amounts at the different monitoring latitudes permitted us to evidence the biological response of olive species in geographic regions with different climate patterns. The specific biological response at different latitude was investigated, the slope results, as flowering days per heat amounts, evidenced that olive species behaviours are very constant in consequence to similar meteorological conditions independently to latitude variations. Averagely, the relationships between plant’s phenology, temperature trends and geographical features are very close, even if the yearly mesoscale meteorological variations force to consider, year by year, phenological advances or delays as local events.  相似文献   

Assessment of the impact of climate change on the olive flowering in Calabria (southern Italy)   总被引：1，自引：1，他引：0  

Elenio Avolio  Fabio Orlandi  Carlo Bellecci  Marco Fornaciari  Stefano Federico 《Theoretical and Applied Climatology》2012,107(3-4):531-540

In phenological studies, plant development and its relationship with meteorological conditions are considered in order to investigate the influence of climatic changes on the characteristics of many crop species. In this work, the impact of climate change on the flowering of the olive tree (Olea europaea L.) in Calabria, southern Italy, has been studied. Olive is one of the most important plant species in the Mediterranean area and, at the same time, Calabria is one of the most representative regions of this area, both geographically and climatically. The work is divided into two main research activities. First, the behaviour of olive tree in Calabria and the influence of temperature on phenological phases of this crop are investigated. An aerobiological method is used to determine the olive flowering dates through the analysis of pollen data collected in three experimental fields for an 11-year study period (1999–2009). Second, the study of climate change in Calabria at high spatial and temporal resolution is performed. A dynamical downscaling procedure is applied for the regionalization of large-scale climate analysis derived from general circulation models for two representative climatic periods (1981–2000 and 2081–2100); the A2 IPCC scenario is used for future climate projections. The final part of this work is the integration of the results of the two research activities to predict the olive flowering variation for the future climatic conditions. In agreement with our previous works, we found a significant correlation between the phenological phases and temperature. For the twenty-first century, an advance of pollen season in Calabria of about 9?days, on average, is expected for each degree of temperature rise. From phenological model results, on the basis of future climate predictions over Calabria, an anticipation of maximum olive flowering between 10 and 34?days is expected, depending on the area. The results of this work are useful for adaptation and mitigation strategies, and for making concrete assessments about biological and environmental changes.  相似文献   

Olive flowering phenology variation between different cultivars in Spain and Italy: modeling analysis     

H. Garcia-Mozo  F. Orlandi  C. Galan  M. Fornaciari  B. Romano  L. Ruiz  C. Diaz de la Guardia  M. M. Trigo  I. Chuine 《Theoretical and Applied Climatology》2009,95(3-4):385-395

Phenology data are sensitive data to identify how plants are adapted to local climate and how they respond to climatic changes. Modeling flowering phenology allows us to identify the meteorological variables determining the reproductive cycle. Phenology of temperate of woody plants is assumed to be locally adapted to climate. Nevertheless, recent research shows that local adaptation may not be an important constraint in predicting phenological responses. We analyzed variations in flowering dates of Olea europaea L. at different sites of Spain and Italy, testing for a genetic differentiation of flowering phenology among olive varieties to estimate whether local modeling is necessary for olive or not. We build models for the onset and peak dates flowering in different sites of Andalusia and Puglia. Process-based phenological models using temperature as input variable and photoperiod as the threshold date to start temperature accumulation were developed to predict both dates. Our results confirm and update previous results that indicated an advance in olive onset dates. The results indicate that both internal and external validity were higher in the models that used the photoperiod as an indicator to start to cumulate temperature. The use of the unified model for modeling the start and peak dates in the different localities provides standardized results for the comparative study. The use of regional models grouping localities by varieties and climate similarities indicate that local adaptation would not be an important factor in predicting olive phenological responses face to the global temperature increase.  相似文献   

国家级现代农业气象业务技术进展   总被引：8，自引：4，他引：4       下载免费PDF全文

侯英雨  张蕾  吴门新  宋迎波  郭安红  赵秀兰 《应用气象学报》2018,29(6):641-656

农业气象业务技术是开展农业气象服务的基础和前提,因此,农业气象业务技术的研发一直是国家级农业气象业务服务的核心工作。近年来,国家级农业气象业务技术已逐步迈向精细化、定量化,涵盖了农业气象监测评价、作物产量预报、农业气象灾害监测评估与影响预报、农用天气预报、农林病虫害发生发展气象等级预报等诸多领域。随着农业气象业务技术的发展,支撑农业气象服务的客观产品更加丰富和多样化,既有站点产品,又有格点产品,涵盖了日、周、月、季、年等不同时间尺度。以农业气象指标、数理统计模型、作物生长模拟、卫星遥感、地理信息系统、大数据等技术为核心的国家级农业气象业务平台（CAgMSS）已成为全国农业气象业务系统的重要品牌。面向现代农业发展对气象服务日益增长的需求,精细化、精准化的农业气象灾害监测与风险评估技术、作物长势评估与产量预报综合集成技术、农业应对气候变化技术以及农业气象大数据挖掘与人工智能技术将是未来国家级农业气象业务技术发展的重点。  相似文献   

温室黄瓜生育期模拟模型的研究   总被引：7，自引：0，他引：7  

李永秀  罗卫红  倪纪恒  陈永山  徐国彬  韩利  陈春宏 《南京气象学院学报》2008,31(2):257-263

根据黄瓜（Cucumis sativus）发育的光温反应过程,建立了基于生理发育时间的黄瓜生育期模拟模型,并利用不同品种的试验资料对模型进行了检验。结果表明,黄瓜从播种到第一批瓜成熟需积累生理发育时间30d,播种—幼苗、幼苗—伸蔓、伸蔓—开花、开花—结瓜、结瓜—成熟所需的生理发育时间分别为3、11、9、5、2d。发芽期、幼苗期、伸蔓期、开花期、结瓜期等各生育期持续时间的模拟值与实际观测值的回归估计标准误差（root mean squared error;RMSE）分别为0、2．6、1．7、0．8、2．1d,从播种到第一次采收的模拟值与观测值的RMSE为1．4d。而用有效积温法对发芽期、幼苗期、伸蔓期、开花期、结瓜期等各生育期持续时间的模拟值与实际观测值的RMSE分别为0．7、10．0、5．7、2．4、2．5d,从播种到第一次采收的模拟值与观测值的RMSE为22．0d。本模型比用有效积温法能更准确地预测黄瓜各个生育期的起止日期和黄瓜的收获期。  相似文献   

A comparison among olive flowering trends in different Mediterranean areas (south-central Italy) in relation to meteorological variations     

Fabio Orlandi  Carlo Sgromo  Tommaso Bonofiglio  Luigia Ruga  Bruno Romano  Marco Fornaciari 《Theoretical and Applied Climatology》2009,97(3-4):339-347

Phenological observations of the anthesic phases of olive flowering in a central Mediterranean area were recorded over a 9-year period. The aim of this research was to compare the flowering dates in relationship to the meteorological changes. Pollen emission from anthers was monitored by remote instrumentation placed directly in olive groves and phenological data regarding daily pollen concentrations (pollen/m³) were recorded using a pollen monitoring methodology. The rhythm of the phenological phases emerged as dependent on the meteorological trend of the spring forcing temperature. Generally, the phenomenon of pollen emission occurred progressively earlier prior to 2001, while in the following 5 years, the trend seemed to be inverted, showing a progressive delay of flowering. The spring quarterly mean temperature trends registered by GISS data in Europe confirmed the presence of diverse meteorological behavior during the study period, probably causing the biological divergences that were monitored. The principal result of the present contribution is to evidence the relativity of empirical investigations and observations considering different time intervals. This is due to the partial, brief series (9 years) of flowering dates which have to be considered as part of a longer series (26 years) in order to have a complete vision of the true phenomenon.  相似文献   

Climate change,the monsoon,and rice yield in India   总被引：4，自引：1，他引：3  

Maximilian Auffhammer  V. Ramanathan  Jeffrey R. Vincent 《Climatic change》2012,111(2):411-424

Recent research indicates that monsoon rainfall became less frequent but more intense in India during the latter half of the Twentieth Century, thus increasing the risk of drought and flood damage to the country’s wet-season (kharif) rice crop. Our statistical analysis of state-level Indian data confirms that drought and extreme rainfall negatively affected rice yield (harvest per hectare) in predominantly rainfed areas during 1966–2002, with drought having a much greater impact than extreme rainfall. Using Monte Carlo simulation, we find that yield would have been 1.7% higher on average if monsoon characteristics, especially drought frequency, had not changed since 1960. Yield would have received an additional boost of nearly 4% if two other meteorological changes (warmer nights and lower rainfall at the end of the growing season) had not occurred. In combination, these changes would have increased cumulative harvest during 1966–2002 by an amount equivalent to about a fifth of the increase caused by improvements in farming technology. Climate change has evidently already negatively affected India’s hundreds of millions of rice producers and consumers.  相似文献   

Evaluation of three simulation approaches for assessing yield of rainfed sunflower in a Mediterranean environment for climate change impact modelling     

J. García-López  Ignacio J. Lorite  R. García-Ruiz  J. Domínguez 《Climatic change》2014,124(1-2):147-162

The determination of the impact of climate change on crop yield at a regional scale requires the development of new modelling methodologies able to generate accurate yield estimates with reduced available data. In this study, different simulation approaches for assessing yield have been evaluated. In addition to two well-known models (AquaCrop and Stewart function), a methodological proposal considering a simplified approach using an empirical model (SOM) has been included in the analysis. This empirical model was calibrated using rainfed sunflower experimental field data from three sites located in Andalusia, southern Spain, and validated using two additional locations, providing very satisfactory results compared with the other models with higher data requirements. Thus, only requiring weather data (accumulated rainfall from the beginning of the season fixed on September 1st, and maximum temperature during flowering) the approach accurately described the temporal and spatial yield variability observed (RMSE?=?391 kg ha^?1). The satisfactory results for assessing yield of sunflower under semi-arid conditions obtained in this study demonstrate the utility of empirical approaches with few data requirements, providing an excellent decision tool for climate change impact analyses at a regional scale, where available data is very limited.  相似文献   

农作物成熟、收获动态预报和农产品交售、收购资金计划调度初探     

冯定原  王宇翔  孙景雷 《气象》1996,22(12):43-47

在具体分析农作物成熟，收获和农产品交售，收购过程的基础上，根据历年农产品收购进度资料，初步探讨了农作物成熟，收获动态预报和农产品交售，收购之间的动态变化关系，建立了农作物成熟，收获动态预报模型，为农产品交售，收购资金合理计划，调度提供了科学依据。  相似文献   

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

Jose Oteros  Herminia García-Mozo  Roser Botey  Antonio Mestre  Carmen Galán 《Climatic change》2015,132(4):545-558

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.  相似文献   

近30年我国气候变化的不稳定性及其与农业生产的关系   总被引：6，自引：0，他引：6  

吴金栋  太华杰 《气象》1996,22(8):3-8

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。  相似文献   

Investigating the implications of meteorological indicators of seasonal rainfall performance on maize yield in a rain-fed agricultural system: case study of Mt. Darwin District in Zimbabwe     

Mushore  Terence  Manatsa  Desmond  Pedzisai  Ezra  Muzenda-Mudavanhu  Chipo  Mushore  Washington  Kudzotsa  Innocent 《Theoretical and Applied Climatology》2017,129(3-4):1167-1173

The study focuses on the impacts of climate variability and change on maize yield in Mt. Darwin District. The rainfall and temperature data for the period under study that is from 1992 to 2012 were obtained from Meteorological Services Department of Zimbabwe at daily resolution while crop yield data were obtained from Department of Agricultural, Technical and Extension Services (AGRITEX) and Zimbabwe Statistics Agency (ZIMSTAT) at seasonal/yearly resolution. In order to capture full rainfall seasons, a year was set to begin on 1 June and end on 31 July the next year. Yearly yield, temperature and rainfall data were used to compute time series analysis of rainfall, temperature and yield. The relationship between temperature, rainfall, quality of season (start, cessation, dry days, wet days and length) and yield was also investigated. The study also investigated the link between meteorological normal and maize yield. The study revealed that temperature is rising while rainfall is decreasing with time hence increasing risk of low maize yield in Mt. Darwin. Correlation between maize yield was higher using a non-linear (R ² = 0.630) than a linear regression model (R ² = 0.173). There was a very high correlation between maize yield and number of dry days (R = −0.905) as well as between maize yield and length of season (R = 0.777). We also observed a strong correlation between percentage normal rainfall and percentage normal maize yield (R ² = 0.753). This was also agreed between rainfall tessiles and maize yield tessiles as 50 % of the seasons had normal and above normal rainfall coinciding with normal and above normal maize yield. Of the 21 seasons considered, only one season had above normal rainfall while maize yield was below normal. The study concluded that there is a strong association between meteorological normal and maize yield in a rain-fed agricultural system. Climate information remains crucial to agricultural productivity hence the need to train farmers to access the information and use it for the benefit of their activities.

  相似文献   

Effect of topography on farm-scale spatial variation in extreme temperatures in the Southern Mallee of Victoria, Australia     

Prakash N. Dixit  Deli Chen 《Theoretical and Applied Climatology》2011,103(3-4):533-542

Extreme temperatures around flowering of wheat have the potential to reduce grain yield and at farm scale their impact can be spatially variable depending on topography. Twenty-five data loggers were installed at 0.8-m height across a 164-ha farm in the southern Mallee of Victoria, Australia to spatially record the daily course of temperatures around the average date of flowering of wheat in the region. The experiment was conducted during 2-years period. In 1 year, the farm had no crop cover and in another year the farm had a wheat crop. Multiple linear regression analysis techniques were used to fit models relating daily extreme temperatures to the farm topographic features of elevation, aspect and slope, and the average maximum and minimum temperatures of each day at the farm in order to identify areas of high risk of extreme temperatures around the time of the flowering of wheat. The fitted regression models explained 90% and 97% of the variability in maximum and minimum temperatures, respectively, when the farm had no crop cover and 80% and 94% of the variability in maximum and minimum temperatures, respectively, when the farm had a wheat crop cover. When the farm had no crop, only minimum temperature was partially explained by the topography however, both maximum and minimum temperatures were partially explained by the topography when the farm had a wheat crop. From this study it was concluded that, (1) high temperature variations were found across the farm (2) temperature variations were only partially explained from the developed model presumably due to the flatter topography of the farm and (3) the relationships obtained from this study could be used in a crop model which can explain variation in grain yield based on the topography of a field.  相似文献   

中世纪温暖期气候变化的花粉化石记录   总被引：4，自引：0，他引：4  

任国玉  张兰生 《气候与环境研究》1996,1(1):81-86

麦里泥炭剖面高分辨率花粉化石记录表明,东北科尔沁沙地在相当于中世纪温暖期阶段夏季降水量曾显著增加,主要表现为沙丘上的乔木和草本植物均获得了繁茂的生长,花粉沉积速率明显上升。作者推测,在中世纪温暖期中,欧亚大陆作为一个整体夏季温度可能暖于今天,这可能通过增强夏季风环流使中国东北夏季雨量增多,为沙丘植物茂盛生长提供了有利条件。  相似文献   

河南省高效农业耕作制生产力特征及资源利用研究     

张雪芬  高伟力  陈东  史定珊  王良宇 《南京气象学院学报》1999,22(2)

从开展河南农业高效利用研究的必要性及更合理利用气候资源的角度出发,提出间作套种的三熟制高效农业资源利用模式。对三熟制与二熟制的气候资源利用、组分产量和产量结构进行对比,分析经济效益和生态效益。结果表明,三熟制种植模式明显优于传统的二熟制种植方式,是符合当前河南省农业向高效优质可持续发展的必然趋势  相似文献   

Increased yield potential of wheat-maize cropping system in the North China Plain by climate change adaptation   总被引：11，自引：0，他引：11  

Jing Wang  Enli Wang  Xiaoguang Yang  Fusuo Zhang  Hong Yin 《Climatic change》2012,113(3-4):825-840

In the North China Plain, the grain yield of irrigated wheat-maize cropping system has been steadily increasing in the past decades under a significant warming climate. This paper combined regional and field data with modeling to analyze the changes in the climate in the last 40 years, and to investigate the influence of changes in crop varieties and management options to crop yield. In particular, we examined the impact of a planned adaptation strategy to climate change -“Double-Delay” technology, i.e., delay both the sowing time of wheat and the harvesting time of maize, on both wheat and maize yield. The results show that improved crop varieties and management options not only compensated some negative impact of reduced crop growth period on crop yield due to the increase in temperature, they have contributed significantly to crop yield increase. The increase in temperature before over-wintering stage enabled late sowing of winter wheat and late harvesting of maize, leading to overall 4–6% increase in total grain yield of the wheat-maize system. Increased use of farming machines and minimum tillage technology also shortened the time for field preparation from harvest time of summer maize to sowing time of winter wheat, which facilitated the later harvest of summer maize.  相似文献   

金湖县夹闵农业开发示范区优化种植规划研究     

冯定原  王彤 《南京气象学院学报》1996,19(4):464-469

从金湖县夹闵农业开发示范区的常年天然气候特点和现有耕地等自然资源出发，采用系统工程的思想观点和理论方法，按照不同的天气气候年型，分别构造了优化种植规划模型。计算结果表明，利用模型指民年度种植，既可保证全年粮食产量稳定在１．５万吨以上，又可使油料产量和经济净效益达最大。  相似文献   

基于涡度相关的春玉米逐日作物系数及蒸散模拟   总被引：3，自引：0，他引：3       下载免费PDF全文

张淑杰  周广胜  李荣平 《应用气象学报》2015,26(6):695-704

作物系数是计算作物蒸散量的关键参数。利用2006—2008年和2011年辽宁锦州玉米农田生态系统的涡度相关、气象、作物发育期及叶面积指数观测数据,分析不受水分胁迫条件下玉米逐日作物系数特征及其与叶面积指数的关系。研究表明:作物系数与玉米农田实际蒸散均呈单峰型变化,约在7月末至8月初达到最大值 (玉米开花吐丝期)。在此基础上,建立了不受水分胁迫条件下玉米逐日作物系数与叶面积指数关系 (达到0.01显著性水平), 同时,采用积温表示的标准化生育期方法模拟相对叶面积指数,并建立了逐日作物系数与相对叶面积指数关系 (达到0.01显著性水平),解决了无叶面积观测地区玉米逐日实际蒸散量的计算。研究结果可为玉米农田用水管理以及灌溉措施的制定提供参考。  相似文献   

Oceanic influence on the sub-seasonal to interannual timing and frequency of extreme dry spells over the West African Sahel     

Seyni Salack  Alessandra Giannini  Moussa Diakhaté  Amadou. T. Gaye  Bertrand Muller 《Climate Dynamics》2014,42(1-2):189-201

Intra-seasonal drought episodes (extreme dry spells) are strongly linked to crop yield loss in the West African Sahel, especially when they occur at crop critical stages such as juvenile or flowering stage. This paper seeks to expose potentially predictable features in the sub-seasonal to inter-annual occurrence of “extreme dry spells” (extDS) through their links to sea surface temperature anomalies (SSTAs). We consider two kinds of extreme dry spells: more than 2 weeks of consecutive dry days following a rain event (often found at the beginning of the rainy season, after the first rain events) and more than a week (observed towards the end of the rainy season, before the last rain events). We extract dry spells from daily rainfall data at 43 stations (31 stations in Senegal over 1950–2010 and 12 stations in Niger over 1960–2000) to identify the intra-seasonal distribution of extDS and their significant correlation with local rainfall deficits. Seasonality of distribution and high spatial coherence are found in the timing and the frequency of occurrence of extDS in different rainfall regions over Niger and Senegal. The correlation between the regional occurrence index (ROI), necessary to capture the spatial extent of extDS, and observed global sea surface temperature anomalies (SSTAs) sheds light on the influence of the external factors on the decadal, interannual and sub-seasonal variability of extDS over the West African Sahel. When the global tropics and the Atlantic are warmer than normal, more coherent and delayed June–July extDS are observed after onset of rainy season, as well as early cessation type in August–September. When the Indo-Pacific is cooler and the equatorial south Atlantic is warmer than normal little to no extDS are found in the onset sub-period of the monsoon season. Mostly late types of extDS occur in October as a result of late cessation. These results show potential predictability of extreme dry spells after onset and before cessation of monsoonal rain based on global patterns of sea surface temperature anomalies.  相似文献