重庆市森林火灾的气象条件分析

利用重庆的林火资料，分析林火发生规律及其气象条件的关系，并进一步给出了重庆林火发生的主要大气环流特点。     

德国“黑森林”中的遐想

2000年10月10日，当我访问、考察结束离开德国土地的时候，我的心境和思绪仿佛还留在德国的黑森林里、黑森林区的草地上。     

灾害与森林植被

人类活动每时每刻都在同自然界打交道。获得生活所需的物质与能量。但自然界是按照一定规律运动和发展的。认识自然规律，最重要的是认识和理解自然界的生态平衡。所谓生态平衡就是自然界中相互相依，相互制约着的各种生物因素和非生物因素之间必须保持一定的相对平衡。而大自然是一个由无数生态系统组成的综合体，在生态系统中生物和环境相互依存，并进行着物质交换。森林是陆地生态的主体。没有森林就说不上保护和改善环境。1灾害无情毁坏家园1996年4月以来，贵州大部分地区降了大到暴雨，造成洪水、泥石流、滑坡等灾害。据7月5日的不完全…     

吕梁地区《春季森林火险预报系统》研究

吕梁地区《春季森林火险预报系统》研究白绍烈，何发旺，薛宇峰，赵海明（朔州市气象局０３８５００）（吕梁地区气象局０３３０００）长期以来，党中央、国务院对林业的发展非常重视，尤其在东北大兴安岭森林特大火灾发生以后，党中央、国务院就如何加强森林管理方面作出...     

持久性有机污染物在森林生态系统中的环境行为研究

持久性有机污染物(POPs)具有环境持久性和半挥发性, 可以在区域及全球范围内传输和分布。森林植被和林下土壤富含有机质, 森林生态系统因此成为POPs主要的储存库之一。植被叶片可快速吸附大气POPs, 并通过叶片凋落、雨水冲刷和干沉降等过程加强或加速大气POPs 向地面的沉降, 并使森林土壤成为POPs 的“汇”, 从而形成所谓的“森林过滤效应”, 进而影响POPs 在全球的分布。进入森林的POPs 在森林生态系统中将经历一系列的环境过程。本文简要介绍了森林过滤效应的特征和影响因素, 综述了叶片对大气POPs 的吸附、叶片凋落和干湿沉降、POPs 在土壤中的迁移和损失等3 个主要环境过程的研究进展, 报道了松针、树皮和苔藓作为被动采样器反映的森林POPs空间分布趋势。最后, 提出了森林POPs研究中亟待解决的科学问题, 并指出未来中国森林POPs研究的可能方向。     

300年来中国森林的变化

Based on historical documents, modern survey and statistics, as well as the result of predecessor studies, the trend and main process of forest dynamics are recognized. The forest area and forest coverage rates for each province of China from 1700 to 1949 are estimated backward by every 50 years. Linking the result with modern National Forest Inventory data, the spatial-temporal dynamics of Chinese forest in recent 300 years （AD 1700-1998） is quantitatively analyzed. The study shows that in recent 300 years, the forest area in current territory of China has declined by 0.95×10^8 hm^2 （or 9.2% of the coverage rate） in total, with a trend of decrease and recovery. Before the 1960s, there was a trend of accelerated descending. The forest area was reduced by 1.66×10^8 hm^2 （or 17% of the coverage rate） in 260 years. While after the 1960s, there has been a rapid increase. The forest area increased by 0.7×10^8 hm^2 （or 8% of the coverage rate） in 40 years. The study also shows that there is a significant spatial difference in the dynamics of forest. The amplitudes of increasing and decreasing in western China are both smaller than the ones in eastern China. During the rapid declining period from 1700 to 1949, the most serious decrease appeared in the Northeast, the Southwest and the Southeast, where the coverage rate in most provinces dropped over 20%. In Heilongjiang Province, the coverage rate dropped by 50%. In Jilin Province, it dropped by 36%. In Sichuan Province and Chongqing Municipality, it dropped by 42%. In Yunnan Province, it dropped by 35%. During the recovery period 1949-1998, the western provinces, municipality and autonomous regions, including Ningxia, Gansu, Inner Mongolia, Sichuan-Chongqing, Yunnan, Tibet, Xinjiang and Qinghai, etc, the increase rates are all below 5%, while the eastern provinces, municipality and autonomous regions （except Heilongjiang, Hubei, Jiangsu-Shanghai） have achieved an increase over 5%, among which the Guangdong-Hainan, Guangxi, Anhui, Beijing-Tianjin-H     

中国东北地区林地面积变化的动态模拟

There is plenty of forests in Northeast China which contributes a lot to the conservation of water and land resources, produces timber products, and provides habitats for a huge number of wild animals and plants. With changes of socio-economic factors as well as the geophysical conditions, there are dramatic changes on the spatial patterns of forest area. In this sense, it is of great significance to shed light on the dynamics of forest area changes to find the underlining reasons for shaping the changing patterns of forest area in Northeast China. To explore the dynamics of forest area change in Northeast China, an econometric model is developed which is composed of three equations identifying forestry production, conversion from open forest to closed forest and conversion from other land uses to closed forest so as to explore the impacts on the forest area changes from demographic, social, economic, location and geophysical factors. On this basis, we employ the Dynamics of Land System (DLS) model to simulate land-use conversions between forest area and non-forest cover and the land-use conversions within the sub-classes of forest area for the period 2000–2020 under business as usual scenario, environmental protection scenario and economic growth scenario. The simulation results show that forest area will expand continuously and there exist various kinds of changing patterns for the sub-classes of forest area, for example, closed forest will expand continuously and open forest and shrub will decrease a little bit, while area of other forest will keep intact. The research results provide meaningful decision-making information for conserving and exploiting the forest resources and making out the planning for forestry production in the Northeast China region.     

山西西山煤田7号煤层成因类型研究

煤的成因类型通过煤的有机显微组成、矿物成分等来体现。从微观研究的角度出发，以各子样的显微煤岩组分统计值、镜惰比（V/I）、骨基比（F／M）、矿物质含量为依据，对西山煤田屯兰煤矿7号煤进行成因类型划分，分为4类6型，即Ⅰ-①、Ⅲ-①、Ⅲ-②、Ⅳ-①、Ⅳ-②、Ⅴ-①。自下而上对煤层划分了23个成因分层。7煤层以Ⅳ类成因类型为主，沉积了覆水森林沼泽环境。