Drought Disaster Evaluation and Temporal Spatial Characteristics of Late Rice in South China

doi:10.3969/j.issn.1000-6362.2014.04.014

Abstract

Abstract: Using yield and growth period data of 174 counties in South China（Guangdong and Guangxi province）， drought index of each growth period of late rice was calculated by daily meteorological drought indicator（DI）， drought disaster evaluation model was constructed and temporal spatial characteristics of the drought disaster was analyzed in the paper. The results showed that，（1）average drought year frequency of late rice in recent 30 years （1981-2010） in South China was 7.1%， where light drought accounts for main part， medium and above almost never. Mean yield reduction rate of drought was 0.66%. Drought disaster mainly occurs in seedling to 3leaf stage and milkripe to mature stage of late rice. （2）Spatial distribution of late rice drought frequency and yield reduction rate were high in west and low in east in South China. Relative high incidence areas locate in northeast Guangxi province， where the drought frequency was above 10% and the yield reduction rate was more than 1%. （3）The driest 6 years of late rice in recent 30 years in South China were 1992， 1990， 1989， 1991， 2009 and 2004. Considering the region as whole， statistically significant lighten trend of drought was observed in seeding to 3leaf stage of late rice during recent 30 years， nevertheless， there was no statistically significant trend of drought was observed in the whole growth period and milkripe to mature stage of the late rice. （4）Stations that drought of the whole growth period of late rice tend to intensify account for 69%， among which 3.4% stations were statistically significant （above 0.1 level）. Stations that drought of the milkripe to mature stage tend to intensify account for 94.8%， among which 36.2% stations were statistically significant， located mainly in Guangxi and north Guangdong. Stations that drought of the seeding to 3leaf stage tend to lighten account for 75.9%， among which 16.1% stations were statistically significant， located mainly in the area from Chongzuo to Wuzhou of Guangxi province. The study provides scientific basis for drought disaster mitigation， climate change adaptation policy making and environment diplomacy.

Key words: South China, Rice, Drought disaster, Evaluation, Model

WANG Chunlin，TANG Lisheng，XIE Wu，DUAN Hailai，LIU Wei. Drought Disaster Evaluation and Temporal Spatial Characteristics of Late Rice in South China[J]. Chinese Journal of Agrometeorology, 2014, 35(04): 450-456.

References

［1］段居琦，周广胜.我国双季稻种植分布的年代际动态［J］.科学通报，2013，58（13）:1213-1220.

［2］中国气象局.中国气象干旱图集（1956-2009）［M］.北京:气象出版社，2010:1-117.

［3］中国气象局.中国灾害性天气气候图集（1961-2006）［M］.北京:气象出版社，2010:1-110.

［4］翟盘茂，邹旭恺.1951-2003年中国气温和降水变化及其对干旱的影响［J］.气候变化研究进展，2005，1（1）:16-18.

［5］王春林，陈慧华，唐力生，等.基于前期降水指数的气象干旱指标及其应用［J］.气候变化研究进展，2012，8（3）:157-163.

［6］王春林，陈慧华，唐力生.广东省气象干旱图集［M］.北京：中国科学技术出版社，2013:1-138.

［7］郭晶，景元书，王春林，等.基于土壤水分平衡模型的广东干旱时空分布特征［J］.中国农业气象，2008，29（3）:353-357.

［8］宋丽莉，王春林，董永春.水稻干旱动态模拟及干旱损失评估［J］.应用气象学报，2001，12（2）:226-233.

［9］廖玉芳，李超，彭嘉栋，等.湖南水稻干旱评估方法研究［J］.中国农学通报，2013，29（9）:16-24.
［10］苏永秀，李政，吕厚荃.水分盈亏指数及其在农业干旱监测中的应用［J］.气象科技，2008，36（5）:592-595.

［11］王春乙，张雪芬，赵艳霞.农业气象灾害影响评估与风险评价［M］.北京：气象出版社，2010:1-277.

［12］王春乙，王石立，霍治国，等.近10年来中国主要农业气象灾害监测预警与评估技术研究进展［J］.气象学报，2005，63（5）:659-671.

［13］冯利平，莫志鸿，黄晚华，等.湖南省季节性干旱对双季稻生长及产量影响的模拟研究［J］.作物学报，2011，37（5）:895-902.

［14］廖玉芳，宋忠华，赵福华，等.气候变化对湖南主要农作物种植结构的影响［J］.中国农学通报，2010，26（24）:276-286.

［15］马欣，吴绍洪，李玉娥，等.未来气候变化对我国南方水稻主产区季节性干旱的影响评估［J］.地理学报，2012，67（11）:1451-1460.

［16］姚凤梅，张佳华，孙白妮，等.气候变化对中国南方稻区水稻产量影响的模拟和分析［J］.气候与环境研究，2007，12（5）:659-666.

［17］张强，邹旭恺，肖风劲，等.中华人民共和国国家标准气象干旱等级（GB/T 204812006）［S］.北京:中国标准出版社，2006:12-17.

［18］王春林，邹菊香，麦北坚，等.近50年华南气象干旱时空特征及其变化趋势［J］.生态学报，2015，35（3）.http：//dx.doi.org/10.5846/stxb201304120691.

［19］张强，张良，崔显成，等.干旱监测与评价技术的发展及其科学挑战［J］.地球科学进展，2011，26（7）：763-778.

［20］邹旭恺，张强.近半个世纪我国干旱变化的初步研究［J］.应用气象学报，2008，19（6），679-687.

［21］茅海祥，王文.中国南方地区近50a夏季干旱时空分布特征［J］.干旱气象，2011，29（3）284-288.

[1]	WU Hui-zhen, LI Dong-sheng, YANG Zai-qiang, ZHANG Feng-yin, CHEN Yang. Based on Four Methods to Compare the Seasonal Temperature Forecasting Model for Venlo-type Glass Greenhouse [J]. Chinese Journal of Agrometeorology, 2024, 45(02): 135-146.
[2]	YU Yan-wen, CHEN Kun, CAI Zhe, LI Shan, SUN Hui-tian. Comparative Analysis of Heat Damage Index for Early Rice by Temperature from Rice Field and National Meteorological Station in Jiangxi Province [J]. Chinese Journal of Agrometeorology, 2024, 45(02): 147-158.
[3]	QIU Mei-juan, LIU Bu-chun, LIU Yuan, PEI Zhong-you, LI Zhi-bin, SONG Xiao-hui. Risk Assessment of Delayed Chilling Injury of Rice and the Determination of Insurance Premium Rate in Northeast China Based on High-resolution Meteorological Grid Data [J]. Chinese Journal of Agrometeorology, 2024, 45(02): 201-211.
[4]	QIU Xing-lin, LIN Ze-quan, LI Can, YU Hai-yang, WANG Ying. Study on Frost Risk during Apple Blossom in Northern China under Different Climate Change Scenarios [J]. Chinese Journal of Agrometeorology, 2024, 45(01): 33-44.
[5]	SU Rong-rui, LIN Rui-kun, SUN Chao-feng, CHEN Jia-jin, WU Zhi-yuan, YANG Kai. Climate Suitability Refined Zoning of Seed Production of Two-line Hybrid Rice for the Safety and High Yield in Fujian Province [J]. Chinese Journal of Agrometeorology, 2024, 45(01): 45-57.
[6]	WEI Rui-jiang, WANG Xin, KANG Xi-yan, LIU Bu-chun. Comparison of Temperature Suitability Differences of Summer Maize Based on Hourly and Daily Average Temperature [J]. Chinese Journal of Agrometeorology, 2024, 45(01): 58-66.
[7]	LIU Shan-shan, LIU Bu-chun, LIU Yuan, HAN Rui, YANG Fan, LIU Guan-zhi, CHE Hong-lei. Assessment of Extreme Temperature Simulation Ability of CMIP6 Global Climate Model in Shandong Province [J]. Chinese Journal of Agrometeorology, 2024, 45(01): 91-100.
[8]	LIU Wen-min, HU Guo-zheng, LI Yue-mei, GAO Qing-zhu, HASBAGAN Ganjurjav, WU Ri-han, YU Pei-dong, LI Ming-jie. Spatiotemporal Dynamics of Farmland Ecological Assets Quality in Qinghai-Tibet Plateau [J]. Chinese Journal of Agrometeorology, 2023, 44(12): 1079-1090.
[9]	LIU Yuan, LIU Bu-chun, MEI Xu-rong. Assessment Regional Grain Yield Loss Based on Re-examination of Disaster-yield Model across the Middle-lower Yangtze River of China [J]. Chinese Journal of Agrometeorology, 2023, 44(12): 1114-1126.
[10]	XU Rui, LEI Yu-hong, LIU Jing, ZHAO Meng-fan, WANG Lu, JIANG Lin-lin, SHANG Yan. Research on the Influencing Factors of Wolfberry Ripening Stage and Integrated Simulation Method in Qaidam [J]. Chinese Journal of Agrometeorology, 2023, 44(12): 1127-1136.
[11]	CHENG Xue-feng, LI Jian-qi, ZHANG Feng-yun. Simulation of Material Accumulation during Grain Filling Process of Oil Peony [J]. Chinese Journal of Agrometeorology, 2023, 44(12): 1137-1146.
[12]	YANG Yun-jie, HAN Lin, LI Min-hua. Zoning of Climatic Quality Grades for Dong Tibetan Red Rice in Hunan Province [J]. Chinese Journal of Agrometeorology, 2023, 44(12): 1147-1154.
[13]	LIU Yuan, LIU Bu-chun, MEI Xu-rong, HE Jin-na, CHEN Di, HAN Rui, ZHU Yong-chang. Assessment and Re-examination the Disaster-yield Model Based on Regional Grain Yield Loss for Five Provinces across North of China [J]. Chinese Journal of Agrometeorology, 2023, 44(11): 1009-1021.
[14]	SHI Ji-qing, GAN Chen-long, GUO Yi-nan, DU Jun, ZHOU Kan-she. Determination and Prediction of Insurance Premium Rate of Highland Barley in Tibet Based on Drought Risk [J]. Chinese Journal of Agrometeorology, 2023, 44(11): 1043-1056.
[15]	LI Shi, ZHANG Jun-hui, HU Jun-ming, ZHOU Feng-jue, LI Ting-ting, XU Mei-hua, MA Jie-ping, LU Zhan-cai. Effect of Isonitrogen Substitution for Biochar Application on Greenhouse Gas Emissions from Southern No-till Early Rice Fields [J]. Chinese Journal of Agrometeorology, 2023, 44(10): 863-875.