福建省农业气候资源信息系统研究
摘要
农业气候资源是大自然为农业生产获得产品所提供的基本物质和能量,也是农业生产重要的环境条件。农业气候资源评价和农业气候区划素来是区域开发与国土整治的一项重要工作,国内用传统方法在这方面研究的历史比较长,对各地的农业发展曾做出过重大的贡献,但从信息时代的要求来看,传统方法的研究手段及成果的表达和运用显然已不能满足各方面的要求。而地理信息系统(GIS)技术的运用,则为农业气候资源的分析和开发利用提供了有效的新方法和新技术,有着广阔的应用前景。
本文首先通过对国内外运用GIS进行农业气候资源研究的现状的分析,阐明了建立农业气候资源信息系统的重要意义:接着以ArcView GIS为软件开发集成环境,并以Avenue和VB为开发语言,进行了福建省农业气候资源信息系统的设计和开发,设计出友好、实用的用户界面,开发出较为完善的系统功能;最后在该系统的支持下,以福建省基础地理数据和71个气象台站的农业气候资源数据库为数据源,应用多元统计、模糊数学等数学分析技术,构建了农业气候资源的小网格推算模型,将福建省农业气候资源的41个有关指标推算至0.004经度×0.004纬度的地表网格单元上,全面地揭示了全省农业气候资源的空间分布规律,并在此基础上完成了比较细致、精确和可靠的农业气候系统功能的模糊综合评价,以及综合农业气候区划和专题农业气候区划。
Agricultural climate resources is the basic material and energy provided by nature for agricultural production to obtain products. It is also an important environmental factor of agricultural production Agricultural climate resources assessment and agricultural climate regionalization is always an important task to regional development and territory rehabilitation. The domestic research in this aspect using traditional methods lasted a long time, which has made a great contribution to regional agricultural development. However, according to the demands of information age, the traditional research means, as well as the expression and application of fruits can not meet the reqirements in all aspects obviously. Having a wide foreground,the application of GIS technique provides an effective new way and new technique for analysing and developing of agricultural climate resources.
Firstly, having analyzed the present research situation on agricultural climate resources by GIS at home and abroad, this thesis illustrates the importance of establishing agricultural climate resources information system. Secondly, basing on developmental and integrative environment of Arc View GIS software, as well as developmental languages (Avenue and VB), we design agricultural climate resources information system in Fujian province with friendly and practical graphic user interface, together with comparatively perfect functions. Finally, supported by FJACRIS, based on Fujian province fundamental geographic data and agricultural climate resources database on 71 weather stations, relied on mathematic analysis techniques (such as multiple statistical analysis,fuzzy mathematics etc), a group of models are established to reckon the agricultural climate resources on small grids 41 indexes of agricultural climate resources are reckoned to the small grids that are 0.004 longitude multiplied by 0.004 latitude.
The spatial distributing rules of agricultural climate resources in Fujian province are fully revealed. On this basis, comparatively meticulous, accurate and reliable fuzzy comprehensive assessment of agricultural climate system function, comprehensive agricultural climate regionalization as well as thematic one are completed.
本文首先通过对国内外运用GIS进行农业气候资源研究的现状的分析,阐明了建立农业气候资源信息系统的重要意义:接着以ArcView GIS为软件开发集成环境,并以Avenue和VB为开发语言,进行了福建省农业气候资源信息系统的设计和开发,设计出友好、实用的用户界面,开发出较为完善的系统功能;最后在该系统的支持下,以福建省基础地理数据和71个气象台站的农业气候资源数据库为数据源,应用多元统计、模糊数学等数学分析技术,构建了农业气候资源的小网格推算模型,将福建省农业气候资源的41个有关指标推算至0.004经度×0.004纬度的地表网格单元上,全面地揭示了全省农业气候资源的空间分布规律,并在此基础上完成了比较细致、精确和可靠的农业气候系统功能的模糊综合评价,以及综合农业气候区划和专题农业气候区划。
Agricultural climate resources is the basic material and energy provided by nature for agricultural production to obtain products. It is also an important environmental factor of agricultural production Agricultural climate resources assessment and agricultural climate regionalization is always an important task to regional development and territory rehabilitation. The domestic research in this aspect using traditional methods lasted a long time, which has made a great contribution to regional agricultural development. However, according to the demands of information age, the traditional research means, as well as the expression and application of fruits can not meet the reqirements in all aspects obviously. Having a wide foreground,the application of GIS technique provides an effective new way and new technique for analysing and developing of agricultural climate resources.
Firstly, having analyzed the present research situation on agricultural climate resources by GIS at home and abroad, this thesis illustrates the importance of establishing agricultural climate resources information system. Secondly, basing on developmental and integrative environment of Arc View GIS software, as well as developmental languages (Avenue and VB), we design agricultural climate resources information system in Fujian province with friendly and practical graphic user interface, together with comparatively perfect functions. Finally, supported by FJACRIS, based on Fujian province fundamental geographic data and agricultural climate resources database on 71 weather stations, relied on mathematic analysis techniques (such as multiple statistical analysis,fuzzy mathematics etc), a group of models are established to reckon the agricultural climate resources on small grids 41 indexes of agricultural climate resources are reckoned to the small grids that are 0.004 longitude multiplied by 0.004 latitude.
The spatial distributing rules of agricultural climate resources in Fujian province are fully revealed. On this basis, comparatively meticulous, accurate and reliable fuzzy comprehensive assessment of agricultural climate system function, comprehensive agricultural climate regionalization as well as thematic one are completed.
引文
[1]张超.地理信息系统[M].北京:高等教育出版社,1995.
[2]王人潮.农业资源信息系统[M].北京:中国农业出版社,2000.
[3]Michele Bernardi. Linkages between FAO agroclimatic data resources and the development of GIS models for control of vector-borne diseases. Acta tropica.2001,79(1):21~34.
[4]Prasad S. Thenkabail, Christian Nolte, and John G.Lyon. Remote Sensing and GIS Modeling for Selection of a Benchmark Research Area in theInland Valley Agroecosystems of West and Central Africa. Photogrammetric engineering & remote sensing.2000,66(6):755~768.
[5]郭兆夏,朱琳等.GIS在气候资源分析及农业气候区划中的应用[J],西北大学学报(自然科学版),2000,30(4):357~359.
[6]郭兆夏,叶殿秀.GIS支持下的陕西省农业气候资源可视化管理系统[J],陕西气象,2001(2):17~19.
[7]郭兆夏,朱琳等.基于GIS的陕西省农业气候区划信息服务系统[J],陕西师范大学学报(自然科学版),2001,29(专辑):128~131.
[8]刘耀武,朱琳等.陕西省冬小麦北移气候分析和区划[J],陕西气象,2001(4):24~26.
[9]朱琳,李怀川等.陕西省富士系苹果品质形成气候条件分析及区划[J].中国农业气象,2001,22(4):50~53.
[10]曾光善,莫建国等.地理信息系统(GIS)在农业气候区划中的应用(一)凯里市农业气候及水稻区划[J].贵州气象,2000,24(3):6~8.
[11]莫建国,帅士章等.地理信息系统(GIS)在农业气候区划中的应用(二)毕节市烤烟气候区划[J].贵州气象,2000,24(3):8~10.
[12]魏丽,殷剑敏等.GIS支持下的江西省冬季农业合理布局气候区划[J].江西气象科技,2000,23(1):27~32.
[13]殷剑敏,肖玉玲,辜晓青.citystar在井冈山区农业气候资源分析中的应用[J].江西气象科技,2000,23(2):33~35.
[14]张洪亮,张军,倪绍祥.ArcView平台下西双版纳纳板河自然保护区可持续发展信息系统的设计与开发[J].地域研究与开发,2001,20(3):1~5.
[15]袁国辉.基于ARC/INFO与ArcView的广州市地籍信息系统的设计与实现[J],城市勘测,2001,(1):1-4.
[16]周甦芳.上海城市航空遥感地理信息系统集成及其关键技术探讨.华东师范大学1997届硕士学位论文.
[17]龚建雅.面向对象数据模型与面向对象的地理信息系统,RS、GIS、GPS的集成与应用[M].北京:测绘出版社,1995.
[18]秦其明,曹五丰等.ArcView地理信息系统实用教程[M].北京:北京大学出版社,2001.
[19]ESRI Corporation. Using Arcview GIS[M].1996.
[20]顾用红,舒振文,张火青.ArcView GIS在水利中的应用[J].广东水利水电,2001,(增刊):66~68.
[21]胡明星,唐宏.Avenue与VB动态数据交换的实现[J],测绘通报,2001,(5):33-36.
[22]ESRI Corporation. Using Avenue[M].1996.
[23]宋文波.地理信息系统用户界面设计[J].遥感信息,1994,(3):24~28.
[24]谢榕.ArcView平台下城市地理信息系统的设计与开发[J],测绘通报,1999,(1):20-26.
[25]李占清等.一个计算山地日照时间的计算机模式[J].科学通报,1987,(17).
[26]傅抱璞.极端最低温度的推算与小地形订正[M].北京:气象出版社,1988.
[27]翁笃鸣等.山区地形气候[M].北京:气象出版社,1990.
[28]邹立尧,赵秀兰.细网格格点农业气候资源推算原理和方法[J].黑龙江气象,1996,(3):3-5.
[29]马旭消,国世友等.气候资源小网格推算方法[J].黑龙江气象,2001,(3):26-28.
[30]张启锐.地质趋势面分析[M].北京:科学出版社,1990.
[31]王惠群等.SAS程序设计[M].北京:科学出版社,2002.
[32]张超.地理信息系统实习教程[M].北京:高等教育出版社,2000.
[33]黄杏元等.地理信息系统概论(修订版)[M].北京:高等教育出版社,2001.
[34]晏路明,福建省中亚热带农业气候系统功能评价的数学模型[J].自然资源,1991,(1):41~47.
[35]晏路明.农业气候系统功能的模糊综合评判[J].系统工程理论与实践,2001,(2):133~137.
[36]张尧庭,方开泰.多元统计分析引论[M].北京:科学出版社,1982.
[37]王学仁.地质数据的多变量统计分析[M].北京:科学出版社,1982.
[38]福建省气象局,福建省农业区划委员会办公室.福建农业气候资源与区划[M].福州:福建科学技术出版社,1990.
[39]晏路明.福建省境内中、南亚热带之间界线的数值划分[J].地理科学,1988,8(2):181~188.
[40]孙才志等.农牧业基地水资源可持续开发利用程度分析方法研究[J].农业系统科学与综合研究,2001,17(2):81~83.
[41]中国亚热带东部丘陵山区农业气候资源及其合理利用研究课题协作组.中国亚热带东部山区农业气候[M].北京:气象出版社,1990.
[42]鹿世瑾.福建气候[M].北京:气象出版社,1999.
[2]王人潮.农业资源信息系统[M].北京:中国农业出版社,2000.
[3]Michele Bernardi. Linkages between FAO agroclimatic data resources and the development of GIS models for control of vector-borne diseases. Acta tropica.2001,79(1):21~34.
[4]Prasad S. Thenkabail, Christian Nolte, and John G.Lyon. Remote Sensing and GIS Modeling for Selection of a Benchmark Research Area in theInland Valley Agroecosystems of West and Central Africa. Photogrammetric engineering & remote sensing.2000,66(6):755~768.
[5]郭兆夏,朱琳等.GIS在气候资源分析及农业气候区划中的应用[J],西北大学学报(自然科学版),2000,30(4):357~359.
[6]郭兆夏,叶殿秀.GIS支持下的陕西省农业气候资源可视化管理系统[J],陕西气象,2001(2):17~19.
[7]郭兆夏,朱琳等.基于GIS的陕西省农业气候区划信息服务系统[J],陕西师范大学学报(自然科学版),2001,29(专辑):128~131.
[8]刘耀武,朱琳等.陕西省冬小麦北移气候分析和区划[J],陕西气象,2001(4):24~26.
[9]朱琳,李怀川等.陕西省富士系苹果品质形成气候条件分析及区划[J].中国农业气象,2001,22(4):50~53.
[10]曾光善,莫建国等.地理信息系统(GIS)在农业气候区划中的应用(一)凯里市农业气候及水稻区划[J].贵州气象,2000,24(3):6~8.
[11]莫建国,帅士章等.地理信息系统(GIS)在农业气候区划中的应用(二)毕节市烤烟气候区划[J].贵州气象,2000,24(3):8~10.
[12]魏丽,殷剑敏等.GIS支持下的江西省冬季农业合理布局气候区划[J].江西气象科技,2000,23(1):27~32.
[13]殷剑敏,肖玉玲,辜晓青.citystar在井冈山区农业气候资源分析中的应用[J].江西气象科技,2000,23(2):33~35.
[14]张洪亮,张军,倪绍祥.ArcView平台下西双版纳纳板河自然保护区可持续发展信息系统的设计与开发[J].地域研究与开发,2001,20(3):1~5.
[15]袁国辉.基于ARC/INFO与ArcView的广州市地籍信息系统的设计与实现[J],城市勘测,2001,(1):1-4.
[16]周甦芳.上海城市航空遥感地理信息系统集成及其关键技术探讨.华东师范大学1997届硕士学位论文.
[17]龚建雅.面向对象数据模型与面向对象的地理信息系统,RS、GIS、GPS的集成与应用[M].北京:测绘出版社,1995.
[18]秦其明,曹五丰等.ArcView地理信息系统实用教程[M].北京:北京大学出版社,2001.
[19]ESRI Corporation. Using Arcview GIS[M].1996.
[20]顾用红,舒振文,张火青.ArcView GIS在水利中的应用[J].广东水利水电,2001,(增刊):66~68.
[21]胡明星,唐宏.Avenue与VB动态数据交换的实现[J],测绘通报,2001,(5):33-36.
[22]ESRI Corporation. Using Avenue[M].1996.
[23]宋文波.地理信息系统用户界面设计[J].遥感信息,1994,(3):24~28.
[24]谢榕.ArcView平台下城市地理信息系统的设计与开发[J],测绘通报,1999,(1):20-26.
[25]李占清等.一个计算山地日照时间的计算机模式[J].科学通报,1987,(17).
[26]傅抱璞.极端最低温度的推算与小地形订正[M].北京:气象出版社,1988.
[27]翁笃鸣等.山区地形气候[M].北京:气象出版社,1990.
[28]邹立尧,赵秀兰.细网格格点农业气候资源推算原理和方法[J].黑龙江气象,1996,(3):3-5.
[29]马旭消,国世友等.气候资源小网格推算方法[J].黑龙江气象,2001,(3):26-28.
[30]张启锐.地质趋势面分析[M].北京:科学出版社,1990.
[31]王惠群等.SAS程序设计[M].北京:科学出版社,2002.
[32]张超.地理信息系统实习教程[M].北京:高等教育出版社,2000.
[33]黄杏元等.地理信息系统概论(修订版)[M].北京:高等教育出版社,2001.
[34]晏路明,福建省中亚热带农业气候系统功能评价的数学模型[J].自然资源,1991,(1):41~47.
[35]晏路明.农业气候系统功能的模糊综合评判[J].系统工程理论与实践,2001,(2):133~137.
[36]张尧庭,方开泰.多元统计分析引论[M].北京:科学出版社,1982.
[37]王学仁.地质数据的多变量统计分析[M].北京:科学出版社,1982.
[38]福建省气象局,福建省农业区划委员会办公室.福建农业气候资源与区划[M].福州:福建科学技术出版社,1990.
[39]晏路明.福建省境内中、南亚热带之间界线的数值划分[J].地理科学,1988,8(2):181~188.
[40]孙才志等.农牧业基地水资源可持续开发利用程度分析方法研究[J].农业系统科学与综合研究,2001,17(2):81~83.
[41]中国亚热带东部丘陵山区农业气候资源及其合理利用研究课题协作组.中国亚热带东部山区农业气候[M].北京:气象出版社,1990.
[42]鹿世瑾.福建气候[M].北京:气象出版社,1999.