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删除2,415字节 、 2022年3月30日 (三) 17:21
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- 查明现有观测系统和设计中的差距,以确保对陆地基本气候变量进行长期监测。
 
- 查明现有观测系统和设计中的差距,以确保对陆地基本气候变量进行长期监测。
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==Networks==
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==Networks= = 网络 = = ==
 
One of the first tasks of the GCOS programme was to define a subset of the World Weather Watch (WWW)<ref>{{cite news |title= World Weather Watch |publisher=WMO |year= 2013 |url=  http://www.wmo.int/pages/prog/www|accessdate= 2013-11-05}}</ref> stations appropriate for basic climate monitoring. The subset of roughly 1000 baseline surface stations became the GCOS Surface Network (GSN),<ref>{{cite news |title= GCOS Observations and Systems |publisher=GCOS |year= 2013 |url=  http://www.wmo.int/pages/prog/gcos/index.php?name=ObservingSystemsandData|accessdate= 2013-11-05}}</ref> while a subset of 150 upper air stations was designated as the GCOS Upper-Air Network (GUAN).<ref>{{cite news |title= The GCOS Upper-Air Network - GUAN |publisher=GCOS/GOSIC |year= 2013 |url=  http://gosic.org/content/gcos-upper-air-network-guan-program-overview|accessdate= 2013-11-05}}</ref> These were built on existing WMO classifications and became the initial baseline components of the atmospheric networks. Considerations for selection of GSN included spatial distribution, length and quality of record, long-term commitment, and degree of urbanization. Similar considerations were used for GUAN. Designation of these networks benefited both the GCOS and the National Meteorological and Hydrological Services (NMHS). For NMHSs, designation of a station as part of the global climate network helped sustain support for these sites with long-term records. The networks provided the foundation for the Regional Basic Climatological Network,<ref>{{cite news |title= Regional Basic Climatological Network |publisher=WMO |year= 2013 |url=  http://www.wmo.int/pages/prog/www/ois/rbsn-rbcn/rbsn-rbcn-home.htm|accessdate= 2013-11-05}}</ref> which provides far greater spatial detail on the variability of climate.
 
One of the first tasks of the GCOS programme was to define a subset of the World Weather Watch (WWW)<ref>{{cite news |title= World Weather Watch |publisher=WMO |year= 2013 |url=  http://www.wmo.int/pages/prog/www|accessdate= 2013-11-05}}</ref> stations appropriate for basic climate monitoring. The subset of roughly 1000 baseline surface stations became the GCOS Surface Network (GSN),<ref>{{cite news |title= GCOS Observations and Systems |publisher=GCOS |year= 2013 |url=  http://www.wmo.int/pages/prog/gcos/index.php?name=ObservingSystemsandData|accessdate= 2013-11-05}}</ref> while a subset of 150 upper air stations was designated as the GCOS Upper-Air Network (GUAN).<ref>{{cite news |title= The GCOS Upper-Air Network - GUAN |publisher=GCOS/GOSIC |year= 2013 |url=  http://gosic.org/content/gcos-upper-air-network-guan-program-overview|accessdate= 2013-11-05}}</ref> These were built on existing WMO classifications and became the initial baseline components of the atmospheric networks. Considerations for selection of GSN included spatial distribution, length and quality of record, long-term commitment, and degree of urbanization. Similar considerations were used for GUAN. Designation of these networks benefited both the GCOS and the National Meteorological and Hydrological Services (NMHS). For NMHSs, designation of a station as part of the global climate network helped sustain support for these sites with long-term records. The networks provided the foundation for the Regional Basic Climatological Network,<ref>{{cite news |title= Regional Basic Climatological Network |publisher=WMO |year= 2013 |url=  http://www.wmo.int/pages/prog/www/ois/rbsn-rbcn/rbsn-rbcn-home.htm|accessdate= 2013-11-05}}</ref> which provides far greater spatial detail on the variability of climate.
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One of the first tasks of the GCOS programme was to define a subset of the World Weather Watch (WWW) stations appropriate for basic climate monitoring. The subset of roughly 1000 baseline surface stations became the GCOS Surface Network (GSN), while a subset of 150 upper air stations was designated as the GCOS Upper-Air Network (GUAN). These were built on existing WMO classifications and became the initial baseline components of the atmospheric networks. Considerations for selection of GSN included spatial distribution, length and quality of record, long-term commitment, and degree of urbanization. Similar considerations were used for GUAN. Designation of these networks benefited both the GCOS and the National Meteorological and Hydrological Services (NMHS). For NMHSs, designation of a station as part of the global climate network helped sustain support for these sites with long-term records. The networks provided the foundation for the Regional Basic Climatological Network, which provides far greater spatial detail on the variability of climate.
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全球气候观测系统方案的首要任务之一是确定适合于基本气候监测的世界天气观测站的子集。大约1000个基线地面站的子集成为 GCOS 地面网络(GSN) ,而150个高空站的子集被指定为 GCOS 高空网络(GUAN)。它们建立在现有的气象组织分类的基础上,成为大气网络的最初基线组成部分。选择 GSN 的考虑因素包括空间分布、记录的长度和质量、长期承诺和城市化程度。类似的考虑也适用于管。指定这些网络有利于全球气候观测系统和国家气象和水文局。对于国家气象和水文部门来说,指定一个气象站作为全球气候网络的一部分,有助于维持对这些有长期记录的地点的支持。这些网络为区域基础气候学网络提供了基础,该网络提供了关于气候变化的更多空间细节。
 
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= = 网络 = = 全球气候观测系统方案的首要任务之一是确定适合于基本气候监测的世界天气观测站的子集。大约1000个基线地面站的子集成为 GCOS 地面网络(GSN) ,而150个高空站的子集被指定为 GCOS 高空网络(GUAN)。它们建立在现有的气象组织分类的基础上,成为大气网络的最初基线组成部分。选择 GSN 的考虑因素包括空间分布、记录的长度和质量、长期承诺和城市化程度。类似的考虑也适用于管。指定这些网络有利于全球气候观测系统和国家气象和水文局。对于国家气象和水文部门来说,指定一个气象站作为全球气候网络的一部分,有助于维持对这些有长期记录的地点的支持。这些网络为区域基础气候学网络提供了基础,该网络提供了关于气候变化的更多空间细节。
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Recognizing that a balance has to be struck between standards and completeness of ground-based measurement, the GCOS programme recognized a hierarchy of observational networks and systems, comprising comprehensive, baseline and reference networks based on assumptions of spatial sampling needs.
      
Recognizing that a balance has to be struck between standards and completeness of ground-based measurement, the GCOS programme recognized a hierarchy of observational networks and systems, comprising comprehensive, baseline and reference networks based on assumptions of spatial sampling needs.
 
Recognizing that a balance has to be struck between standards and completeness of ground-based measurement, the GCOS programme recognized a hierarchy of observational networks and systems, comprising comprehensive, baseline and reference networks based on assumptions of spatial sampling needs.
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An example of a particularly successful step forward in implementing a global observing system for climate is the initiation of a reference network for upper-air observations - the GCOS Reference Upper-Air Network (GRUAN).<ref>{{cite news |title= GCOS Reference Upper-Air Network |publisher=GCOS |year= 2013 |url=  http://www.wmo.int/pages/prog/gcos/index.php?name=GRUAN|accessdate= 2013-11-05}}</ref> The network is the prototype of a hybrid observing system, combining operational upper-air measurement sites with research sites and providing high-quality reference data for atmospheric profiles. GRUAN sites are undertaking high-quality atmospheric profile measurements that will help understand trends in upper-air ECVs, assist in investigating processes in the upper-troposphere and lower stratosphere, and provide data for calibrating satellite measurements and validating independent climate analyses and models. At GRUAN sites, the principles of quality, traceability and complete error characterization have been heeded, for at least part of the observing programme. The network is planned to grow over its initial size of 15 stations in coming years; introducing climate quality standards to a larger number of sites.
 
An example of a particularly successful step forward in implementing a global observing system for climate is the initiation of a reference network for upper-air observations - the GCOS Reference Upper-Air Network (GRUAN).<ref>{{cite news |title= GCOS Reference Upper-Air Network |publisher=GCOS |year= 2013 |url=  http://www.wmo.int/pages/prog/gcos/index.php?name=GRUAN|accessdate= 2013-11-05}}</ref> The network is the prototype of a hybrid observing system, combining operational upper-air measurement sites with research sites and providing high-quality reference data for atmospheric profiles. GRUAN sites are undertaking high-quality atmospheric profile measurements that will help understand trends in upper-air ECVs, assist in investigating processes in the upper-troposphere and lower stratosphere, and provide data for calibrating satellite measurements and validating independent climate analyses and models. At GRUAN sites, the principles of quality, traceability and complete error characterization have been heeded, for at least part of the observing programme. The network is planned to grow over its initial size of 15 stations in coming years; introducing climate quality standards to a larger number of sites.
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An example of a particularly successful step forward in implementing a global observing system for climate is the initiation of a reference network for upper-air observations - the GCOS Reference Upper-Air Network (GRUAN). The network is the prototype of a hybrid observing system, combining operational upper-air measurement sites with research sites and providing high-quality reference data for atmospheric profiles. GRUAN sites are undertaking high-quality atmospheric profile measurements that will help understand trends in upper-air ECVs, assist in investigating processes in the upper-troposphere and lower stratosphere, and provide data for calibrating satellite measurements and validating independent climate analyses and models. At GRUAN sites, the principles of quality, traceability and complete error characterization have been heeded, for at least part of the observing programme. The network is planned to grow over its initial size of 15 stations in coming years; introducing climate quality standards to a larger number of sites.
      
在实施全球气候观测系统方面特别成功的一个例子是启动了一个高空观测参考网络——全球气候观测系统参考高空网络。该网络是一个混合观测系统的原型,将业务上的高空测量站点与研究站点结合起来,为大气廓线提供高质量的参考数据。格鲁吉亚地球观测网各站正在进行高质量的大气剖面测量,这将有助于了解高空气候变化趋势,协助调查对流层上层和平流层下层的过程,并为校准卫星测量和验证独立的气候分析和模型提供数据。在 GRUAN 网站,至少部分观测程序遵循了质量、可追溯性和完全错误角色塑造的原则。该网络计划在未来几年扩大其最初的15个站点的规模; 在更多的站点引入气候质量标准。
 
在实施全球气候观测系统方面特别成功的一个例子是启动了一个高空观测参考网络——全球气候观测系统参考高空网络。该网络是一个混合观测系统的原型,将业务上的高空测量站点与研究站点结合起来,为大气廓线提供高质量的参考数据。格鲁吉亚地球观测网各站正在进行高质量的大气剖面测量,这将有助于了解高空气候变化趋势,协助调查对流层上层和平流层下层的过程,并为校准卫星测量和验证独立的气候分析和模型提供数据。在 GRUAN 网站,至少部分观测程序遵循了质量、可追溯性和完全错误角色塑造的原则。该网络计划在未来几年扩大其最初的15个站点的规模; 在更多的站点引入气候质量标准。
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==See also==
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==See also ==另请参阅==
 
* '''''<small>{{portal-inline|Ecology}}</small>'''''
 
* '''''<small>{{portal-inline|Ecology}}</small>'''''
 
* '''''<small>{{portal-inline|Environment}}</small>'''''
 
* '''''<small>{{portal-inline|Environment}}</small>'''''
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*  
 
*  
 
*  
 
*  
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==See also==
      
*  
 
*  
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{{Reflist}}
 
{{Reflist}}
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==External links==
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==External links= = 外部链接 ===
 
* [http://www.wmo.int/pages/prog/gcos/index.php GCOS website]
 
* [http://www.wmo.int/pages/prog/gcos/index.php GCOS website]
 
* [http://www.ioc-goos.org/ GOOS website]
 
* [http://www.ioc-goos.org/ GOOS website]
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* website of the Global Observing Systems Information Center - GOSIC
 
* website of the Global Observing Systems Information Center - GOSIC
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= = = 外部链接 = =
   
* 全球气候观测系统网站  
 
* 全球气候观测系统网站  
 
* 全球海洋观测系统网站  
 
* 全球海洋观测系统网站  
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