Winter soil CO2 efflux in two contrasting forest ecosystems on the eastern Tibetan Plateau,China

Significant CO2 fluxes from snow-covered soils occur in cold biomes. However, little is known about winter soil respiration on the eastern Tibetan Plateau of China. We therefore measured winter soil CO...     

Effect of reforestation on annual water yield in a large watershed in northeast China

A simplified water balance model in conjunc-tion with an evapotranspiration (ET) model and cumulative forest cover data were used to quantify the changes in annual water yield in response to reforestat...     

基于亚像元分解与增强的MODIS卫星林火监测图像制作

为提高低空间分辨率遥感影像在卫星林火监测部门的应用质量,获取更准确的火灾信息,制作可视效果更好、便于基层部门使用的卫星林火监测图像。本研究以2013年2月6日云南省大理市黄家村森林火灾为背景,研究了一种基于亚像元分解与增强技术的卫星林火监测图像制作技术。结果表明,通过亚像元分解与增强技术,对空间分辨率低的气象卫星遥感图像进行处理,可得到空间分辨率为30 m的图像产品,能够将低分辨率遥感影像处理成超分辨率的遥感影像图像。该技术可应用于林火监测部门发布相关的监测图像。     

森林经营对土壤动物影响研究进展

森林经营是实现森林可持续发展的根本途径,土壤动物是森林生态系统的重要组成部分,可对森林经营及其带来的变化及时做出反应。为了探讨土壤动物对森林经营措施的响应,归纳总结了森林经营理念的发展以及森林经营对土壤动物影响的文献资料。结果表明森林经营主要通过对地上结构和微环境的改变对地下土壤动物的群落组成、分解功能及生物指示功能等方面产生影响。在今后研究中应加强森林经营对土壤动物连续长期的动态影响研究,同时利用现代研究技术与方法深入探讨森林经营对土壤动物影响的机制研究。     

陆良县林产业发展探析

根据陆良县2018年特色经济林产业、林浆纸产业、林产化工产业、竹藤产业、野生动物驯养繁殖产业、森林生态旅游产业、观赏苗木产业等林产业发展情况进行了分析,找出了陆良县林产业发展存在的问题,相应提出了加快陆良县林产业发展的意见和建议。     

Impact of harvesting and logging slash on nitrogen and carbon dynamics in soils from upland spruce forests in northeastern Ontario

The potential impact of timber harvesting in the boreal forest on aquatic ecosystem water quality and productivity depends in part on the production of nutrients within the soil of the harvested catchment. Nitrogen supplied by organic matter decomposition is of particular interest because of the important role that N plays in biotic processes in surface waters, and in forest nutrition in general. Logging slash quality and input to the forest floor has the potential to influence N availability after harvest on clearcut sites. Net production of organic and inorganic-N and microbial biomass C and N concentrations were determined during a 90-day laboratory incubation at constant temperature and moisture. Incubated soils included F horizon and shallow mineral soil horizons (0-5 cm) from unharvested and full-tree harvested (2 and 12 growing seasons since harvest) boreal forest sites at the Esker Lakes Research Area (ELRA), in northeastern Ontario, Canada. In an ancillary experiment, black spruce foliage was added to unharvested forest floor material after 30 days during a 90-day laboratory incubation to simulate the influence of logging slash from full-tree harvesting on C and N dynamics. Twelve-year old clearcut F horizon material released on average 75 and 5 times more -N and 3 and 2 times as much inorganic-N than soil collected from unharvested and 2-year-old clearcuts, respectively. This increase in -N accumulation during the incubation was accompanied by decreases in both exchangeable -N and microbial biomass C and N levels. Net daily changes in microbial biomass N were significantly related to organic and inorganic-N accumulation or loss within the F horizon. Mineral soil release of inorganic-N was lower than release from the forest floor. Nitrate-nitrogen accumulation was lower, and -N accumulation was higher in mineral soil from unharvested sites when compared to 12-year-old clearcuts. Calculated harvest response ratios indicated that incubated mineral soil from the 12-year-old clearcut sites released significantly greater amounts of -N than 2-year-old clearcuts. Incorporation of black spruce needles into F horizon material reduced the production of organic and inorganic-N and increased microbial biomass N. Laboratory incubations of F horizon and shallow mineral soil from 12-year-old clearcuts suggested that these boreal soils have the capacity for increased inorganic-N production compared to uncut stands several years after harvesting. This has the potential to increase N availability to growing boreal forest plantations and increase N leaching due to greater -N levels in the forest soil.     

Gross nitrogen mineralisation and fungi-to-bacteria ratios are negatively correlated in boreal forests

In terrestrial ecosystems, gross nitrogen mineralisation is positively correlated to microbial biomass but negatively to soil organic matter C-to-N ratios; the influence of the microbial community structure is less well known. Here, we relate rates of gross N mineralisation to fungi-to-bacteria ratios in three natural forest types of contrasting N availability and in a long-term N-loading experiment in a boreal forest. We report, for the first time, a strong negative correlation between gross N mineralisation and the fungi-to-bacteria ratio ( = 0.91, P = 0.0005, N = 7). There was also a negative correlation between gross N mineralisation and the C-to-N ratio ( = 0.89, P = 0.001, N = 7), but a weaker positive correlation between gross N mineralisation and soil pH ( = 0.64, P = 0.019, N = 7). Our analysis suggests that soil fungi-to-bacteria and C-to-N ratios are interrelated and that they exert strong influences on soil N cycling in boreal forests.     

基于自然保护地体系的森林公园规划范围调整思考——以安吉竹乡国家森林公园为例

随着国家自然保护地体系的建立,安吉竹乡国家森林公园也正面临新的机遇与挑战。原规划范围与自然保护区、风景名胜区以及生态红线存在交叉与重叠,亟需进行优化整合。文章从优化整合空间、确定发展定位、明确保护重点、提升资源价值4个方面论述了竹乡国家森林公园的规划策略,分析了调整森林公园经营范围的意义和必要性。文章认为,调整后的竹乡国家森林公园经营范围符合安吉经济社会发展需要,有利于森林公园的经营管理,有利于安吉小鲵国家级自然保护区保护,同时能够带动新增地区的生态旅游发展,新规划是可行的。     

贵州赤水楠竹林菌笋复合经营技术

为充分利用楠竹林地空间,提高竹林经济效益,对楠竹林采用丰产技术措施培育笋用林,并在林下种植竹荪,实施菌笋复合经营。结果显示,通过对楠竹林采取调整立竹结构、劈山抚育、林地清理、林地垦复、留笋养竹、病虫害防治等一系列丰产技术措施,竹林春笋产量明显提高,较对照提高62.49%;若同时在林下种植竹荪,则春笋产量更高,较对照增加1.69倍,同时可收获鲜竹荪超过400 kg/667 m²。该研究总结出的一套楠竹林菌笋复合经营技术,具有重要的推广价值。     

筇竹与黄皮树人工混交林中筇竹地上部分生物量模型构建

本研究以筇竹与黄皮树人工混交林中筇竹地上部分为研究对象,测定分析了1~4年生分株地上部分各构件生物量及含水率,建立人工筇竹分株地上部分各构件的生物量及总生物量模型,以期为人工筇竹林的经营管理及其碳汇项目的开发提供科学依据。结果表明：随着筇竹分株年龄的增加,各构件含水率和生物量均逐渐减少,筇竹1~4年生分株地上部分平均含水率分别为57.62%、53.40%、50.01%、42.66%,平均生物量分别为133.99、123.31、109.76、85.39 g/m²;各年龄分株地上部分生物量的分配均呈现出秆＞枝＞叶的变化规律。不同年龄分株的胸径与秆、枝、叶生物量及地上部分总生物量均有极显著相关性(P＜0.01)。以胸径为自变量建立的各年龄筇竹分株地上部分总生物量模型的决定系数(R²)均在0.93以上,具有较高的可信度,也有着较强的适用性,可用于类似立地条件下的筇竹分株生物量估测。