破坏耕地罪探讨

破坏耕地行为有违宪法、刑法和民法等规定,但无可直接引用的破坏耕地罪专门条款。应以附属刑法的方式设立破坏耕地罪。论述了破坏耕地罪的概念和构成及其刑事责任,并指出适用破坏耕地罪时应注意的问题,如罪与非罪的界限以及破坏耕地罪与侵占土地罪、破坏土地资源罪、破坏自然资源罪等的界限。     

耕地转用许可证制度探讨

目前耕地“占用”严重，有必要从法律上界定耕地“转用”，建立耕地转用许可法律制度，按合法，公开，效率，合理原则和法定程序确定耕地转用。     

全国及区域性人均耕地阈值的探讨

论文首先指出并不存在联合国粮农组织提出的人均耕地面积阈值;继而认为人均耕地面积阈值具有鲜明的时间和空间特征,需要有明确的前提条件。为此按1995年的耕地实际生产力(在耕地面积中扣除菜地和经济作物用地面积),以人均400kg、450kg、500kg粮食需求量的生活标准,提出就全国平均而言,人均耕地面积不应小于0.092hm₂、0.104hm₂、0.115hm₂(可以看作当前的人均耕地面积阈值)。根据2010、2030、2050年我国的预期耕地面积以及可能达到的生产能力,按人均400kg、450kg、500kg粮食需求量的生活标准,就全国平均而言,2010年人均耕地面积不应小于0.059hm₂、0.067hm₂、0.074hm₂(可以看作近期的人均耕地面积阈值);2030年人均耕地面积不应小于0.052hm₂、0.058hm₂、0.064hm₂(可以作为中期的人均耕地面积阈值);2050年人均耕地面积不应小于0.046hm₂、0.052hm₂、0.058hm₂(可以作为远期的人均耕地面积阈值)。     

南京雨花石

南京出产的雨花石为天赐瑰宝，按照矿物岩石学可分为11类，可从岩石质地、艺术、科学、历史四个方面评价其价值。雨花石作为砾石、卵石主要是由河流作用形成的，而组成雨花石的原岩的成因各异，火山作用是最为重要的成因方式。雨花石可从产品销售以及发展旅游事业等方面加以利用，搞好规划开发利用时要注意保护资源。     

从水质角度论黄河干流水资源

在分析1997，1998和1999年黄河干流水质监测数据及取水口水质水量资料的基础上，结合水体用途，从水质的角度对黄河干流水资源做出相关评价，并提出了水资源功能容量和水资源功能亏缺的概念，结果表明：黄河干流取水口处水质对取水水体用途的影响显著；1999年黄河干流具备水资源功能的取水量为159．42亿m^3，不具备水资源功能的取水量为80．94亿m^3，与水资源功能容量相比，黄河干流水资源功能亏缺相对较大；且在1997－1998－1999年间，干流水资源功能亏缺存在增加的趋势。     

工业废水土地快速渗滤系统设计参数试验研究

通过对细砂、中砂、粗砂 3种土层快速渗滤系统的试验研究得出了入渗率随时间变化的指数关系和稳定入渗率 ;实测了不同土层对CODCr、BOD5和氨氮的处理效果 ,以及净化能力随渗透深度的变化规律 ;对土层失去净化能力和恢复净化能力过程进行了试验 ,找出了土层吸附饱和与间歇周期。     

土地资源承载力若干问题浅析

本文就当前土地资源承载力研究中所遇到的若干问题,从土地资源承载力定义的理解、土地生产力的计算、单产预测、土地资源评价和土地利用结构调整等5个方面进行了探讨。 如何定义和理解土地资源人口承载力是进行这项研究的关键。以研究土地资源人口承载力为目的的土地资源评价是进行土地生产力计算和土地利用结构调整必不可少的基础。根据统计资料预测的作物单产,不能反映出土地生产力,而使用农业生态地带法计算作物单产目前也存在着一些问题。     

人工土壤渗滤工艺研究与应用

土地处理系统作为生态学处理方法,实际上是追求土壤、含水层和植物的“处理”与“利用”两个功能的总体实现。人工土壤渗滤工艺正是针对传统土地处理工艺的改进而发展起来的一种技术,它使用人造填料代替土壤,构造人工土壤环境;有效改善了土地处理工艺占地较大和处理负荷低的弊端。并通过对人工土壤渗滤工艺的实际应用,对工艺的处理效果进行了研究,尤其是通过一系列的微生物试验,对工艺中的核心部分——“人工土壤”的生物特性以及构建进行了有益的探索。     

Carbon isotope ratios in logged and unlogged boreal forests: Examination of the potential for determining wildlife habitat use

Due to assimilation of recycled CO₂ from litter decomposition and photosynthetic changes in carbon fractionation at low light levels, the foliage at the base of a forest is often more depleted in¹³C compared to that exposed to the atmosphere in either the canopy or in open clearings. This is referred to as the canopy effect. African research has indicated that these habitat differences in foliar ¹³C can be substantial enough to affect the carbon isotope ratios of resident fauna. Previous work documenting a 30-year chronology on moose teeth from Isle Royale National Park indicated a progressive depletion in¹³C and suggested that this could be due to forest regrowth following extensive burning. The present study examined the assumption implicit in this hypothesis that foliar ¹³C varies between open and closed boreal forest sites. I found a marginal canopy effect of 2 ¹³C difference between upper canopy and ground flora for a forest in northwestern Ontario and an average difference of 1.2 in under- and mid-story vegetation between closed forests and open clear-cuts. Because of these small differences, the utility of carbon isotope analysis in quantifying temporally integrated exploitation of deforested habitats will be low for northern boreal locations. In denser forests, such as those in the tropics or western North American where the canopy effect can be expected to be much greater, ¹³C analysis may still offer some promise for determining selection by wildlife of disturbed habitats.     

Landscape Structure and Historical Processes Along Diked European Valleys: A Case Study of the Arc/Isère Confluence (Savoie, France)

/ The valleys of European piedmonts constitute changing narrow corridors within which water, matter, nutrients, energy, and species flow. The dispersion patterns of these flows have been significantly disturbed since the end of the 18th century. Thus, western European valleys have been changed into complex mosaics by implementation of socioeconomical programs. In order to define future actions allowing the preservation of this "ecocomplex" (Blandin and Lamotte 1988), it is necessary to gather precise information of the landscape dynamics. Hence, the study of the European river valleys must be based upon two major steps: (1)the analysis of the present landscape with suitable remote sensing techniques, allowing us to map the complex mosaic of narrow corridors; and (2) the analysis of temporal landscape development patterns since the first engineering works that have transformed the braided channel system. In this paper, the efficiency of the addition of two techniques is highlighted: (1) the "wavelet merging method" from multispectral and panchromatic SPOT images for the floodplain land-cover mapping, and (2) the historical reconstruction techniques from old maps and archive documents in order to analyze the cumulative impacts of engineering works on landscape diversity. To illustrate the method, a particularly complex case study is chosen: the Arc/Isere confluence (downstream from Albertville, Savoie, France). Remote sensing, field survey, and historical reconstruction allowed us to distinguish two types of spatial units: (1) the "functional sets" characterized by independent state factors (edaphic, hydrological, and topographic) and supporting a limited number of vegetation types (spontaneous or cultivated), and (2) the functional unit (= ecotope), which corresponds to a unique combination of vegetation type/functional set.KEY WORDS: Landscape ecology; Floodplains; Vegetation; Land use; Remote sensing; Historical reconstruction; Mapping; Merging methods; Human impacts; Alps; Isere river; France