设施农业气象灾害研究综述及研究方法展望

陈思宁 黎贞发 刘淑梅

中国农学通报. 2014, 30(20): 302-307

中国农学通报 ›› 2014, Vol. 30 ›› Issue (20) : 302-307. DOI: 10.11924/j.issn.1000-6850.2013-2992
农业科技信息

设施农业气象灾害研究综述及研究方法展望

  • 陈思宁 黎贞发 刘淑梅
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Review of Facilities Agriculture Meteorological Disasters and Prospect of Associated Study Methods

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摘要

近年来,设施农业已成为中国农业种植业中效益最高的产业,设施作物生产对于气候条件依赖程度较高,受灾害性天气影响较大,因此科学、合理地评估气象灾害对设施作物的影响及风险对农业生产意义重大。针对目前有关设施农业气象灾害的研究相对广泛但不系统、尚未进行系统整理、总结的现状,从国内外设施农业的差异入手,综述了国内外设施农业气象灾害研究进展,总结了现有研究特点及存在问题,并结合农业气象灾害风险评估新的研究理念从方法、模型、技术的角度提出了现存问题的解决方法,旨在为研究人员开展相关研究梳理已有思路,并提供一些新的想法和方向。

Abstract

In recent years, facilities agriculture has become the highest efficiency industry in farming and planting industry in China, however, the facilities crop production is highly dependent on climate conditions and influenced by the disaster weather strongly. Therefore, it’s significant to assess the impact and risk of meteorological disasters on the facilities crops scientifically and reasonably in agricultural production. There exist some researches about facilities agriculture meteorological disaster, but few people make a summary of current researches and point out the topics of future researches, also, some urgent problems exist in this area. Based on the difference between domestic and abroad facilities agriculture, the author reviewed the international research progress of facilities agriculture meteorological disasters, summarized the characteristics and problems of existing researches, and put forward some solutions to the existing problems based on the new ideas of agro-meteorological disaster and risk evaluation, in order to organize original ideas and provide some new ideas and direction for researchers when carried out related research in future.

关键词

设施农业; 气候适应性; 气象灾害; 研究方法; 综述

Key words

facilities agriculture; climate adaptability; meteorological disasters; study method; review

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陈思宁 黎贞发 刘淑梅. 设施农业气象灾害研究综述及研究方法展望. 中国农学通报. 2014, 30(20): 302-307 https://doi.org/10.11924/j.issn.1000-6850.2013-2992
Review of Facilities Agriculture Meteorological Disasters and Prospect of Associated Study Methods. Chinese Agricultural Science Bulletin. 2014, 30(20): 302-307 https://doi.org/10.11924/j.issn.1000-6850.2013-2992

参考文献

[1] Ya?c?o?lu A. Greenhouse mechanization[M].Ege University, Faculty of Agriculture,Publication no:562. ?zmir,Turkey;2005.
[2] MuradCanakci, N.YaseminEmekli, SefaiBilgin, et al. Heating requirement and its costs in greenhouse structures: A case study for Mediterranean region of Turkey[J].Renewable and Sustainable Energy Reviews,2013(24):483-490.
[3] Sethi VP, Sharma SK. Survey and evaluation of heating technologies for world wide agricultural greenhouse applications[J]. Solar Energy,2008;82:832-59.
[4] Bennis N, Duplaix J, Enéa G, et al. Greenhouse climate modelling and robust control[J].Computers and Electronics in Agriculture,2008 (6):96-107.
[5] 王健林.现代农业气象业务[M].北京:气象出版社,2010:264-291.
[6] 2012—2016年中国设施农业投资分析及前景预测报告[R].中投顾问, 2012.Http://food.ocn.com.cn/reports/201203/sheshinongye. html.
[7] 孙立德.温室气象与作物保护研究[M].沈阳:辽宁科学技术出版社,2012:7-9.
[8] 姚於康.国外设施农业智能化发展现状、基本经验及其借鉴[J].江苏农业科学,2011(1):3-5.
[9] Piers M. Methods and models for the assessment of third party risk due to aircraft accidents in the vicinity of airports and their implications for societalrisk[A]. Jorissen R E and Stallen PJM, eds. Quantified Societal Risk and Policy Making[C].Dordrecht: Kluwer Academic Publishers,1998.
[10] Carter D A. The Scaled Risk Integral- A Simple Numerical Representation of Case Societal Risk for Land Use Planning in the Vicinity of Major Accident Hazards, Loss Prevention in the Process Industries, vol Ⅱ[M].Amsterdam: Elsevier,1995.
[11] A. Ramírez- Arias, F. Rodríguez, J.L. Guzmánb, et al. Multiobjective hierarchical control architecture for greenhouse crop growth[J].Automatica,2012(48):490-498.
[12] 赵子征,彭高军,辛本胜.我国西北地区节能型日光温室蔬菜生产气候区划[J].农机化研究,2006(5):87-90.
[13] 邱仲华,康永故,王捷,等.甘肃高效节能日光温室区划初报[J].农业工程学报,1996,12(增刊):143-144.
[14] 沈善铜.江苏省蔬菜设施栽培的发展途径[J].江苏农业科学,1994 (5):44-45.
[15] 吕国华,汪洪礼,史为民,等.新疆节能日光温室发展区划与结构优化探讨[J].农业工程学报,1996,12(增刊):48-51.
[16] 杨小利,周小安.高效节能日光温室蔬菜生产气候区划[J].甘肃气象,1999,17(3):40-41.
[17] 张亚红.中国温室气候区划及连栋温室采暖气象参数的研究[D].北京:中国农业大学,2003:1-91.
[18] 魏瑞江,赵春雷.基于 GIS的河北果菜日光温室最佳发展区域确定[J].中国农业资源与区划,2005,26(1):35-38.
[19] 李春,黎贞发,谢东杰,等.天津市日光温室生产的气候资源比较分析[J].北方园艺,2010(4):63-65.
[20] 李俊有,王志春,胡桂杰,等.赤峰市设施农业气候风险区划[J].内蒙古气象,2010(6):47-49.
[21] 姚益平.基于能耗与作物生产潜力的中国温室气候区划[D].南京:南京农业大学,2011:1-151.
[22] 张明洁,赵艳霞.日光温室气候适宜性研究——以北方地区为例[J].中国农业资源与区划,2012,33(5):42-50.
[23] 张明洁,赵艳霞.北方地区日光温室气候适宜性区划方法[J].应用气象学报,2013,24(3):278-286.
[24] 魏瑞江.日光温室低温寡照灾害指标[J].气象科技,2003,31(1):50- 53.
[25] 叶彩华.日光温室连阴寡照的小气候特征、预警指标及防御对策[J].北京农业,2010:60-62.
[26] 蔡冰,刘寿东,费玉娟,等.江苏省设施农业气象灾害风险等级区划[J].中国农学通报,2011,27(20):285-291.
[27] 黄川容,杨再强,刘洪,等.北京日光温室风灾风险分析及区划[J].自然灾害学报,2012,21(3):43-49.
[28] 杨再强,费玉娟,朱静,等.江苏省设施农业寡照灾害时空分布规律的研究[J].东北农业大学学报,2012,43(2):64-69.
[29] 杨再强,朱凯,赵翔,等.中国南方塑料大棚气象灾害风险区划[J].自然灾害学报,2012,21(5):213-221.
[30] 肖志强,赵彦锋.陇南市武都区大风时空演变气候特征及灾害风险区划[J].资源与环境科学,2012(16):274-275.
[31] 黎贞发,李春.天津市设施种植业气象灾害风险分析及对策[J].天津农林科技,2012(4):32-33.
[32] 刘璐,梁轶,柏秦凤,等.基于GIS技术的陕西省设施农业越冬期低温冻害精细化风险区划——以泾阳县为例[J].中国农学通,2012, 28(18):302-305.
[33] 杨再强,张婷华,黄海静,等.北方地区日光温室气象灾害风险评价[J].中国农业气象,2012,34(3):342-349.
[34] 彭晓丹,杨再强,柳笛,等.温室黄瓜低温气象灾害指标[J].气象科技, 2013,41(2):394-400.
[35] 宋恭晶,关勤,林淑敏,等.浅谈设施农业应对灾害性天气的主要技术措施[J].辽宁农业科学,2012(6):64-65.
[36] 夏卫国.温室大棚蔬菜气候灾害防御措施[J].现代农业科技,2009 (23):152.
[37] 吴克,张巍,杨霄.沈阳地区设施农业生产期气候变化与灾害对策[J].江苏农业科学,2012,40(9):336-338.
[38] 黄崇福.自然灾害风险评价理论与实践[M].北京:科学出版社, 2005.
[39] 黄崇福.风险分析基本方法探讨[J].自然灾害学报,2011,20(5):1-10.
[40] Daniele Miorandi, Sabrina Sicari, Francesco De Pellegrini, et al. Internet of things: Vision, applications and research challenges[J]. Ad Hoc Networks,2012(10):1497-1516.
[41] 李志宇.物联网技术研究进展[J].计算机测量与控制,2012,20(6): 1445-1451.
[42] Pang Z B , Chen Q , Han W L, et al. Value-centric design of the internet- of- things solution for food supply chain: Value creation, sensor portfolio and information fusion[M].Information Systems Frontiers, puiblished on line 29 August 2012, DOI 10.1007/s10796- 012-9374-9.
[43] Huang G Q, Mak K L. Internet Applications in Product Design and Manufacturing[M].Springer-Verlag,2003:250.
[44] 阎晓军,王维瑞,梁建平.北京市设施农业物联网应用模式构建[J].农业工程学报,2012,28(4):149-154.
[45] 梁居宝,杜克明,孙忠富.基于3G和VPN的温室远程监控系统的设计与实现[J].中国农学通报,2011,27(29):139-114.
[46] Zhao C J , Li M, Yang X T, et al. A data-driven model simulating primary infection probabilities of cucumber downy mildew for use in early warning systems in solar greenhouses[J].Computers and Electronics in Agriculture,2011(76):306-315.
[47] 黎贞发,王铁,宫志宏,等.基于物联网的日光温室低温灾害监测预警技术及应用[J].农业工程学报,2013,29(4):229-236.

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