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11.
S. Hashimoto S. Ugawa K. Morisada M. Wattenbach P. Smith Y. Matsuura 《Soil Use and Management》2012,28(1):45-53
Forest management and climate change may have a substantial impact on future soil organic carbon (SOC) stocks at the country scale. Potential SOC in Japanese forest soils was regionally estimated under nine forest managements and a climate change scenario using the CENTURY ecosystem model. Three rotations (30, 50, 100 yr) and three thinning regimes were tested: no‐thinning; 30% of the trees cut in the middle of the rotation (e.g. 15 year in a 30‐yr rotation) and thinned trees all left as litter or slash (ThinLef) and the trees from thinning removed from the forest (ThinRem). A climate change scenario was tested (ca. 3 °C increase in air temperature and 9% increase in precipitation). The model was run at 1 km resolution using climate, vegetation and soil databases. The estimated SOC stock ranged from 1600 to 1830 TgC (from 6800 to 7800 gC/m2), and the SOC stock was largest with the longest rotation and was largest under ThinLef with all three rotations. Despite an increase in net primary production, the SOC stock decreased by 5% under the climate change scenario. 相似文献
12.
本文介绍了为满足企业数据中心的要求,帮助企业在空间和能源受限制的情况下建设数据中心,在此基础上,文章探讨了虚拟化技术,介绍了企业虚拟化计算资源监控、管理平台的实现,并就AJAx在平台中的应用进行了探讨. 相似文献
13.
李芳 《山东农业大学学报(自然科学版)》2005,36(4):599-603
嵌入式Linux系统是操作系统的重要组成部分。本文分析了在嵌入式Linux系统上实现Email系统的方法。 相似文献
14.
Against the neoliberal steamroller? The Biosafety Protocol and the social regulation of agricultural biotechnologies 总被引:1,自引:0,他引:1
Through a discursive and organizational analysis we seek to understand the Biosafety Protocol and the place of socioeconomic
regulation of agricultural biotechnology in it. The literature on the Protocol has been fairly extensive, but little of it
has explored debates over socioeconomic regulation during the negotiation process or the regulatory requirements specified
in the final document. This case is especially important at a time when the spread of neoliberalism is increasingly associated
with deregulation, because it sheds light on the conditions under which circumvention of the market is deemed legitimate and
socio-economic regulation of agricultural technology is possible.
Daniel Lee Kleinman
is a professor in the Department of Rural Sociology at the University of Wisconsin, Madison, where he is also affiliated
with the Holtz Center for Science and Technology Studies and the Integrated Liberal Studies Program. He is the author and
editor of a number of books, including Impure Cultures: University Biology and the World of Commerce (2003).
Abby J. Kinchy
is a PhD candidate in the Departments of Sociology and Rural Sociology at the University of Wisconsin, Madison. Her current
research examines the controversies surrounding the genetic “contamination” of Mexican maize and Canadian canola. 相似文献
15.
有效可靠的的传输,是视频监控系统的一个重要研究课题。分析了基于MPEG-4的网络视频监控系统可以采用的拥塞控制方法,提出了一种基于RTP协议,从分组丢失率、时延、时延抖动三方面判断网络拥塞,综合考虑发送、接收和中间节点三方面影响的拥塞控制方法。 相似文献
16.
17.
The purpose of this study was to predict the likely amounts of carbon sequestration on a national scale for Japan in the Article-3.4
private planted forests of the Kyoto Protocol during the first commitment period. We regarded the planted forests that had
undergone silvicultural practices such as weeding, pruning, and thinning since 1990 as Article-3.4 planted forests in accordance
with the definition given by the Forestry Agency of Japan. Regression models were developed to predict the forest areas that
had undergone silvicultural practices, employing silvicultural subsidies and forest workers' wages as predictor variables.
Then the time series changes in the predictor variables were provided by extending their recent trends, with the result being
that the forest areas that have undergone silvicultural practices were predicted on the basis of the three scenarios of the
variables. Thus, the Article-3.4 forest area was calculated considering overlaps of silvicultural practices over fixed stands,
and the area was converted into the amount of carbon sequestration by multiplying it by coefficients such as a volume table,
biomass expansion factor, and others. The result implied that Article-3.4 private planted forests were expected to sequester
8.16–8.87 Mt-C year−1 during the first commitment period. These amounts cover 63%–68% of the carbon sequestration goal by land-use change and forestry
activities capped under the Marrakesh Accords. To realize this prediction, it is important to provide a sufficient silvicultural
subsidy to last until the end of the first commitment period and to implement silvicultural practices on the forest stands
that have not undergone such practices since 1990. 相似文献
18.
Monitoring and verification of soil carbon changes under Article 3.4 of the Kyoto Protocol 总被引:5,自引:0,他引:5
P. Smith 《Soil Use and Management》2004,20(2):264-270
Abstract. The Marrakech Accords allow biospheric carbon sinks and sources to be included in attempts to meet emission reduction targets for the first commitment period of the Kyoto Protocol. Forest management, cropland management, grazing land management and re-vegetation are allowable activities under Article 3.4 of the Kyoto Protocol. Soil carbon sinks and sources can therefore be included under these activities. The Kyoto Protocol states that sinks and sources of carbon should be accounted for 'taking into account uncertainties, transparency in reporting, verifiability'. At its most stringent, verifiability would entail the sampling of each geo-referenced piece of land subject to an Article 3.4 activity at the beginning and end of a commitment period, using a sampling regime that gives adequate statistical power. Soil and vegetation samples and records would be archived and the data from each piece of land aggregated to produce a national figure. Separate methods would be required to deliver a second set of independent verification data. Such an undertaking at the national level would be prohibitively expensive. At its least stringent, verifiability would entail the reporting of areas under a given practice (without geo-referencing) and the use of default values for a carbon stock change for each practice, to infer a change for all areas under that practice. A definition of verifiability between these extremes would allow simple methods, such as those derived from IPCC default values for CO2 fluxes from soil, to be used for estimating changes in soil carbon. These may enable low-level verifiability to be achieved by most parties by the beginning of the first commitment period (2008–2012). 相似文献
19.
P. Falloon P. Smith R. I. Bradley R. Milne R. Tomlinson D. Viner M. Livermore & T. Brown 《Soil Use and Management》2006,22(3):274-288
We describe the development and application of an integrated data and modelling system for estimating soil carbon (C) fluxes from mineral soils caused by changes in climate, land use and land management at 1‐km resolution in the UK (RothCUK). The system was developed with the aim of improving methods for United Nations Framework Convention on Climate Change (UNFCCC) and Kyoto Protocol accounting and integrates national scale data sets of soil properties, land use and climate with the Rothamsted carbon model (RothC). A preliminary estimate of soil C fluxes because of land use change (LUC) over the period 1990–2000 is presented as an example application of the system. RothCUK shows LUC to be a net source of CO2 from 1990 to 2000 although the RothC estimate was smaller (6488 kt C) than the estimate from the single exponential model (SEM) method currently used to calculate C fluxes due to LUC for the UK National Greenhouse Gas Inventory (mean: 9412 kt C). Based on previous studies, an uncertainty range in our estimates of ±50–100% seems plausible. In agreement with the SEM, RothCUK suggests that the largest single contributor to soil C fluxes from LUC was conversion of grassland to arable land. Differences between the results may be attributed to differences in the two models and the assumptions and underlying data used in making the calculations. The RothCUK system provides a powerful method for estimating changes in soil C stocks, enabling areas and management systems with particularly large changes in soil C stocks to be located at fine resolution. 相似文献
20.