合肥环城公园林木白蚁的危害及防治

调查了合肥环城公园内 2 7种树木 ,其中 1 1种树木受到白蚁的侵害 ,占调查树种的 40 75 % ;树木侵害数为 82株 ,占总调查株数的 4 0 2 %。台湾乳白蚁CoptotermesformosanusShirak是危害林木的主要种类 ,在受害的 82株树木中 ,有 80株 (占受害株数的 97 5 6% )是受到台湾乳白蚁的危害 ,占调查株数的3 92 %。刺槐、榆树和构树受其危害最为严重。通过针对性防治 ,白蚁的发生情况明显减少     

吉林长白山北坡天然林鼠害调查

吉林省长白山北坡天然林是我国重要的红松Pinus koraiensis种源基地,近年鼠害严重。2015年4—6月、9—10月,在阔叶林、针阔混交林、针叶林、暗针叶林及岳桦Betula ermanii林中调查鼠害发生情况,统计危害发生的树种和部位,并在危害发生林型中采用笼捕法和陷阱法调查鼠类的组成。结果表明:1)鼠害主要发生在春季海拔800~1 100 m的针阔混交林;2)受害树种主要为椴树Tilia tuan(3.61%±1.05%)、假色槭Acer pseudo-sieboldianum(3.00%±0.63%)、红松(1.73%±0.31%)、色木槭A.mono(1.28%±0.14%)等重要经济林木,受害部位主要集中于林木基部(58.90%)和裸露根部(37.99%);3)长白山北坡林区春季鼠类捕获率较高,秋季较低;4)捕获的主要鼠种为棕背Myodes rufocanus、朝鲜姬鼠Apodemus peninsulae和红背M.rutilus,陷阱法对棕背的捕获率远高于笼捕法,但对朝鲜姬鼠和红背的捕获率较笼捕法低。     

单性木兰种子雨与天然更新的初步调查

以位于广西木论国家级自然保护区内的单性木兰为对象,调查了其种子的天然散播和天然萌发、幼苗幼树的生长情况及鼠类对种子的取食危害情况。结果表明：单性木兰种子具休眠特性,种子到达地面后并不立即萌发,至次年4月初—4月中旬才见子叶出土;鼠类对单性木兰种子的取食具有长期性,从种子散播初期至种子萌发的这段时间鼠类均对其种子进行取食（包括地表和土壤中的种子）;利用铁丝网罩进行种子萌发的对比实验发现,即使是在无鼠类危害的情况下,单性木兰的种子萌发率也很低;单性木兰天然更新过程中由种子转化成幼苗这个阶段还存在着严重的障碍,低的种子萌发率难以满足单性木兰种群的正常更新。     

广西南宁市园林树木白蚁发生种类及危害情况

2009年311月对南宁市园林树木白蚁为害情况进行了调查。结果表明,台湾乳白蚁Coptotermes formosanus Shiraki是危害园林树木的优势种;调查的57种树木中,45种树木受到了白蚁的侵害,占总数的78.95%,树木受害株率达13.11%,严重受害株率为1.66%。银桦、侧柏和樟树等树种受白蚁危害最为严重。     

陕西省退耕还林固碳释氧价值分析

利用基于EOS/MODIS的遥感生物地球化学模式(BIOME-BGC)NPP产品(MOD17A3),分析了2000—2010年陕西省退耕还林生态建设工程区植被固碳量时空变化,在此基础上根据林业行业标准《森林生态系统服务功能评估规范》(LY/T1721—2008),估算了退耕还林植被固碳释氧服务价值。结果表明:(1)2000—2010年陕西省退耕还林区平均植被固碳密度为299g·m-2·a-1。与2000年相比,2010年陕省退耕还林区固碳量增加了5.37×106t·a-1,合固碳价值14.01亿元·a-1,占全省固碳价值增量的50.4%,而退耕还林区面积仅占全省总面积38.5%。退耕还林区释氧量增加了1.43×107t·a-1,合释氧价值50.53亿元·a-1。(2)研究期间,陕西省退耕还林区固碳密度在波动中逐年缓慢增加,退耕还林区植被固碳密度变化增加趋势比其周边区域显著,固碳密度增加量比其周边高。陕北退耕还林区固碳密度增加的面积占其总面积的99.8%,固碳密度减少的面积仅占0.2%。退耕还林区低固碳密度所占的面积比例逐年减少,中、高固碳密度所占的面积比例逐年增加。(3)退耕还林区主要土地利用类型固碳密度均呈较明显的增长;不同坡度耕地固碳密度均具有不同程度的上升,退耕还林区>25°坡耕地固碳密度极显著(P<0.01)增加。说明随着退耕还林工程的实施,植被覆盖逐步得到改善,同时获得了显著的植被固碳释氧效益。     

中国集中连片特困区退耕还林还草生态效应评估

集中连片特困地区作为我国生态环境脆弱区是退耕还林还草的主战场,其退耕成效直接反映了退耕还林还草工程的整体实施效果,为新征程中巩固和拓展退耕还林还草成果提供经验镜鉴。以《中国农村扶贫开发纲要(2011-2020年)》文件明确的14个集中连片特困地区作为研究区域,基于2000-2020年生态系统年总初级生产力(AGPP)数据集和归一化植被指数(NDVI)数据集,对比分析集中连片特困区的退耕区和未退耕区AGPP和NDVI的年际变化差异,以此来评估集中连片特困地区实施退耕还林还草工程的生态效应。研究发现:(1)2000-2020年,集中连片特困区退耕还林还草面积为178554km²,占2000年耕地总面积的44.71%;(2)研究期内,退耕区与未退耕区AGPP和NDVI整体表现出增长趋势,其中退耕区AGPP和NDVI呈现极显著和显著上升趋势的面积分别占总面积的69.07%和86.51%,未退耕区的占比分别为65.88%和72.61%,且退耕区AGPP和NDVI的年均值和相对变化率均高于未退耕区;(3)2000-2020年整个区域、退耕区以及未退耕区AGPP和NDVI年际变化趋势大体一致,均表现出线性递增态势,且退耕区AGPP和NDVI的增长始终高于整个集中连片特困区和未退耕区。因此,研究通过探讨原集中连片特困区退耕还林还草对AGPP和NDVI的影响,为进一步调整和优化退耕还林还草政策提供了参考依据。     

济源太行山区鼠类对三种林木种子的扩散和贮藏

对取食种子的动物而言,种子的选择、扩散以及随后的处理是一个复杂的过程。为了解济源太行山区鼠类对不同种林木种子的选择和扩散策略的差异,于2011 年9 月10 日至11 月8 日,选取山杏、桃和栓皮栎3 种林木种子,将种子标记后,释放于次生林中,以5 d 间隔,调查并记录种子命运。结果表明: (1)大林姬鼠和岩松鼠是该地区主要的种子取食者和扩散者; (2)3 种种子的扩散速率明显不同,栓皮栎种子扩散速率最快(中位存留时间8. 6 d),其次为山杏种子(中位存留时间20. 9 d),桃种子扩散速率最慢(中位存留时间37. 5 d); (3)鼠类倾向于取食栓皮栎种子(55.0%) , 埋藏山杏种子(62. 0% ),但忽略桃种子(原地存留率99. 0% );(4)88. 6%的山杏和78. 8% 的栓皮栎种子被贮藏在灌丛下方、树干基部周围和石块旁边等生境中,而仅有4 3% 的山杏和9.1% 的栓皮栎种子被贮藏于裸地中;(5)鼠类将山杏种子搬运到更远(3. 4 ± 2. 1 m,mean± SE,n =63)处贮藏;而栓皮栎种子的搬运距离则相对较近(2. 5 ± 2. 4 m,n = 57)。结果显示:鼠类对不同种植物种子具有明显的取食、贮藏偏好和不同的贮藏策略。     

种子产量对鼠类扩散栓皮栎坚果的影响

为了解林木种子产量对鼠类种子扩散行为的影响,于2008 年和2009 年,在国有济源市愚公林场调查了栓皮栎的种子雨;在每年的种子雨结束后,选择次生林生境,研究了鼠类对人工释放栓皮栎坚果的扩散,旨在探讨种子产量与种子扩散间的关系。结果表明:1)取食栓皮栎坚果的鼠类主要有大林姬鼠、社鼠和岩松鼠,2008 年的鼠类捕获率(2% )低于2009 年(10%),其差异并未达到显著性水平;2)栓皮栎的种子雨构成和产量存在年际差异,2008 年以完好种子为主且产量高于2009 年,而2009 年以败育种子为主;3)2008 年人工释放栓皮栎坚果的中位存留时间显著高于2009 年;4)2008 年鼠类对栓皮栎坚果的平均扩散距离显著低于2009 年,且两年的搬运距离几乎都集中在9 m 以内;5)2008 年鼠类对栓皮栎坚果的埋藏比例显著高于2009 年。结果提示,在种子高产年份,可能有较多的种子逃脱动物的取食,从而增加种子萌发和幼苗建成的机会,最终促进植物的更新。     

东北林区不同尺度森林的含碳率

准确估算森林生态系统碳储量对整个陆地生态系统碳循环及全球变化研究具有至关重要的作用.本研究利用2007、2008年东北林区(大兴安岭林区、小兴安岭林区、张广才岭和长白山林区)标准地调查数据及同一时期的一类样地清查数据,采用地面乔、灌、草生物量模型及实验室Multi N/C 3000分析仪测定的林木含碳率,计算不同尺度上森林生物量及碳储量,分析不同尺度森林含碳率的变化及稳定性.结果表明: 东北林区林木不同器官的含碳率差异明显,其平均含碳率为树叶(0.4448)＞树枝(0.4422)＞树皮(0.4398)＞树干(0.4351).张广才岭和长白山林区针叶林的含碳率高于阔叶林,而大、小兴安岭林区阔叶林的含碳率高于针叶林.研究区域森林的含碳率相对稳定,东北林区森林总含碳率为0.44.     

长白山林区棕背(鼠平)秋季种群数量的预测

棕背 (Ｃｌｅｔｈｒｉｏｎｏｍｙｓｒｕｆｏｃａｎｕｓ)为我国北方林区主要森林害鼠之一 ,对林木的危害程度与棕背数量有直接关系[1] ,危害时间主要在秋末至来年初春。在林木鼠害防治中 ,将棕背秋季种群数量提前做出预测预报 ,对采取预防措施具有重要意义。关于棕背种群数量动态的研究已有一些报道[1～ 5] ,棕背危害伊春林区的预测也有报道[1,6] 。作者根据多年在长白山林区调查鼠害的结果 ,提出适合该林区的具体预测方法 ,现将研究结果报道如下。1　研究地点与方法棕背在长白山林区的数量分布有明显的地带性[5,7] ,研究地点选…     

浙江省森林生物量动态

以浙江省1976至2004年森林资源连续清查资料为数据源,采用基于生物量与蓄积之间关系的生物量转换因子连续函数法,对全省林分生物量和包括林分在内的森林生物量动态进行估计。森林生物量为包括林分、疏林、灌木林、竹林、经济林和四旁树在内的所有林木生物量之和。结果表明,浙江省1976至2004年间森林生物量从1.00828&#215;10^8Mg上升到2.44426&#215;10^8Mg;其中,林分生物量由0.5712&#215;10^8Mg上升到1.51128&#215;10^8Mg。森林生物量和林分生物量的年平均增长速度分别为5.1%和9.1%。在1999至2004年间,森林生物量和林分生物量增长速度均明显加快,分别达到8.6%和10.1%。在1976至2004年间,全省森林面积年均增长速度为1.0%,森林平均生物量从16.50Mg&#183;hm^-2上升到36.59Mg&#183;hm^-2。但是,在森林资源总量不断增加的同时,全省林分质量仍维持较低水平。2004年全省林分单位面积生物量为38.40Mg&#183;hm^-2,远低于全国平均水平（77.40Mg&#183;hm^-2）。研究还表明,利用森林资源连续清查数据和基于单株测树因子的森林生物量模型能够估计大尺度范围内的森林生物量及其动态,但亟待在统一标准下建立和完善覆盖所有树种的生物量模型。     

Influence of stand age and physical environment on the herb composition of second-growth forest, Strouds Run, Ohio, USA

Aim Historical land use in eastern North America and much of Europe has created a mosaic of successional forest stands of widely varying age. An estimate of the rate of successional community development would allow the conservation value of individual stands to be assessed. We estimate the rate of herb community development in secondary forests in our region, and the extent to which physical gradients determine herb distributions. Location Second‐growth forest in the Appalachian Oak section of the Central Hardwoods Region, southeastern Ohio, USA. Methods Thirty‐five plots were surveyed in old (82–193 years) and young (35–40 years since pasture) deciduous forest stands and pine plantations. In each plot, herb species cover and environmental factors were measured. Results Herb community composition was clearly distinguishable between oak‐dominated upland sites and mixed mesophytic stands in moist ravines. In both community types, young stands were compositionally distinct from old stands. Species lacking obvious seed dispersal mechanisms were disproportionately uncommon in young stands, implying dispersal limitation in the process of recolonization. Among old stands, distributions of many species showed significant regressions on the environmental variables, whereas few showed significance in young stands. Species with weak dispersal tended to be more frequently linked to environmental gradients in old stands than in young stands. Main conclusions Early arriving forest species appear to assort rapidly along physical gradients, defining communities early in the successional trajectory. The re‐assembly of the full forest community continues over a longer period as individual species assort on environmental gradients at rates determined by their dispersal abilities. Thus, long‐established stands show more spatial variation than successional stands, and offer greater opportunities for conservation of the forest community.     

The effect of forest age and habitat structure on the ground‐dwelling ant assemblages of lowland poplar plantations

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Saproxylic beetle diversity in a managed boreal forest: importance of stand characteristics and forestry conservation measures

Saproxylic beetles constitute a significant proportion of boreal forest biodiversity. However, the long history of timber production in Fennoscandia has significantly reduced the availability of dead wood and is considered a threat to the conservation of saproxylic beetle assemblages. Therefore, since the mid‐1990s dead wood retention in harvested stands has formed an integral part of silvicultural practices. However, the contribution of this biodiversity‐orientated management approach to conserving saproxylic beetle assemblages in boreal forest landscapes that include production forestry remains largely untested. We examined differences in resident saproxylic beetle assemblages among stands under different management in a boreal forest landscape in Central Sweden, and in particular stands managed according to new conservation‐orientated practices. We also investigated the relationship between beetle diversity and forest stand characteristics. Bark of coarse woody debris (CWD) was sieved for beetles in old managed stands, unmanaged nature reserves, and set‐aside areas, and clear‐cut stands harvested according to certification guidelines [new forestry (NF) clear‐cuts]. All stand types contributed significantly to the total diversity of beetles found. While stand size, position, and distance to nearest reserve were unimportant, both the quality and the quantity of CWD in stands contributed significantly to explaining beetle abundance and species richness. This extends the previous findings for red‐listed invertebrates, and shows that heterogeneous substrate quality and a range of management practices are necessary to maintain saproxylic beetle diversity in boreal forest landscapes that include production forestry. The unique abiotic conditions in combination with the abundant and varied CWD associated with NF clear‐cuts form an important component of forest stand heterogeneity for saproxylic beetles. It is thus essential that sufficient, diverse, CWD is retained in managed boreal landscapes to ensure the conservation of boreal saproxylic beetle assemblages.     

The response of mammals to forest fire and timber harvest in the North American boreal forest

1. This paper reviews and compares the effects of forest fire and timber harvest on mammalian abundance and diversity, throughout successional time in the boreal forest of North America. 2. Temporal trends in mammal abundance and diversity are generally similar for both harvested and burned stands, with some differences occurring in the initiation stage (0–10 years post disturbance). 3. Small mammals and ungulates are most abundant immediately post disturbance, and decrease as stands age. Lynxes and hares utilize mid-successional stands, but are rare in young and old stands. Bats, arboreal sciurids and mustelids increase in abundance with stand age, and are most abundant in old growth. 4. Substantial gaps in the data exist for carnivores; the response of these species to fire and harvest requires research, as predator–prey interactions can affect mammal community structure in both early and late successional stages. 5. The lack of explicit treatment of in-stand forest structure post disturbance, in the reviewed literature made comparisons difficult. Where forest structure was considered, the presence of downed woody material, live residual trees and standing dead wood were shown to facilitate convergence of mammal communities to a pre-disturbance state for both disturbance types. 6. Mammalian assemblages differed considerably between successional stages, emphasizing the importance of maintaining stands of each successional stage on the landscape when implementing forest management strategies.     

Satellite‐based estimates reveal widespread forest degradation in the Amazon

Anthropogenic and natural forest disturbance cause ecological damage and carbon emissions. Forest disturbance in the Amazon occurs in the form of deforestation (conversion of forest to non‐forest land covers), degradation from the extraction of forest resources, and destruction from natural events. The crucial role of the Amazon rainforest in the hydrologic cycle has even led to the speculation of a disturbance “tipping point” leading to a collapse of the tropical ecosystem. Here we use time series analysis of Landsat data to map deforestation, degradation, and natural disturbance in the Amazon Ecoregion from 1995 to 2017. The map was used to stratify the study area for selection of sample units that were assigned reference labels based on their land cover and disturbance history. An unbiased statistical estimator was applied to the sample of reference observations to obtain estimates of area and uncertainty at biennial time intervals. We show that degradation and natural disturbance, largely during periods of severe drought, have affected as much of the forest area in the Amazon Ecoregion as deforestation from 1995 to 2017. Consequently, an estimated 17% (1,036,800 ± 24,800 km², 95% confidence interval) of the original forest area has been disturbed as of 2017. Our results suggest that the area of disturbed forest in the Amazon is 44%–60% more than previously realized, indicating an unaccounted for source of carbon emissions and pervasive damage to forest ecosystems.     

长白山阔叶红松林结构多样性的初步研究

在林业可持续发展的背景下,对森林实施生态系统管理,必须保护和维持森林的生物多样性。这就要求在森林调查和经营过程中增加林分结构多样性方面的内容,因此必须充分认识森林结构包括的内容,并研究制订简便实用的结构多样性指标。本文采用目测分层盖度结合无样地点四分法取样进行林分结构因子调查,设计了一套简便的林分结构指标体系,并对长白山红松阔叶混交林及其次生林进行了林分结构多样性的测定研究。结果表明：基于分层盖度构建的林分垂直多样性指数和水平结构异质性指数,可以较好地表示林分的基本结构特征,同时借助点四分法测定的物种多样性指数和对倒木、站干、林隙等的统计,可以较全面地描述阔叶红松林的林分结构因素。应用该方法测定不同的原始林样地的林分结构,得到的林分结构指标与其他林分结构因素的描述,同常规林学调查结论一致并更全面;同时对不同采伐方式的林分结构进行了测定,结合相应的常规指标测定对比,表明该结构指数不但能较好地表示群落的空间结构特征,同时也能对比不同经营方式对林分结构造成的影响,如择伐方式比皆伐方式对林分的结构影响相对较小而且结构恢复时间较短,从而说明对阔叶红松林这种复层异龄混交林的森林类型而言,择伐是一种更适合的通过结构调控进行生态系统管理的方式。在对生态系统进行经营管理过程中,采用该方法能有效地说明林分的垂直结构复杂性和水平结构异质性及重要的林分结构因子存在状况,因而更适合当前森林生态系统管理的要求。文章进一步分析了林分结构指标待改进的部分与研究方向。     

基于森林资源清查资料分析山东省森林立木碳储量

利用山东省第7次森林资源清查数据,采用生物量-蓄积量转换函数和平均生物量法,结合不同树种的含碳率,研究山东省森林生态系统立木碳储量、碳密度及其按优势树种、龄组和林种的分布特征.结果表明: 2007年山东省森林立木碳储量为25.27 Tg,其中,针叶林、针阔混交林和阔叶林的立木碳储量分别占全省立木碳储量的8.6%、2.0%和89.4%.不同林龄组的立木碳储量大小顺序为幼龄林>中龄林>成熟林>近熟林>过熟林,其中幼龄林和中龄林占全省立木总碳储量的69.3%.用材林、经济林和防护林的立木碳储量分别占全省立木碳储量的37.1%、36.3%和24.8%.山东省森林平均立木碳密度为10.59 t·hm^-2,低于全国平均水平,主要是由于现有森林用材林和经济林比重高,中幼林多、成过熟林少.
     

辽东山区次生林生态系统大、中型土壤动物组成与季节动态

土壤动物是次生林生态系统的重要组成成分.为探讨次生林生态系统不同林型对大、中型土壤动物群落结构特征的影响,于2007年对东部山区次生林生态系统中5个主要林型的土壤动物群落进行了观测和分析.共获取土壤动物36210只,分别隶属于2门8纲32目.优势类群为真螨目(Acariformes)和弹尾目(Collembola).分析结果表明:(1)人工林大、中型土壤动物类群数和个体数波动大于次生林;(2)除落叶松人工林外,其他林型大、中型土壤动物生物量在7月份达到最大值;(3)除胡桃楸林外,其他林型大、中型土壤动物多样性在9月份达到最大值.结果表明,次生林较人工林土壤动物群落在生长季中波动范围小、多样性高.     

四川省及重庆地区森林植被碳储量动态

四川省及重庆市地区森林植被是我国第二大林区-西南林区的主体,位于"世界第三极"--青藏高原东缘.在建立森林乔木层生物量与蓄积量回归模型的基础上,按林分类型测定含碳量,结合四川4次森林资源清查数据,估算了不同时段的碳储量.各林分类型含碳量在46.75%～54.89%之间,平均含碳量为51.09%,针叶林平均含碳量(52.82%)大于阔叶林(49.37%);四川森林植被碳储量从1988年的383.04TgC增加到2003年的523.57TgC,增加了140.53TgC,年均增长率2.11%,比全国年均增长率高出0.22%,表明四川森林植被是CO2的一个汇.4次调查的森林植被平均碳密度分别为38.93、38.68、39.17、41.66MgC/hm2,呈现增加趋势,表明森林植被的碳汇功能不断加强;成熟林碳储量占同期的64.15%、63.89%、65.33%、60.82%,但所占比重呈下降的趋势,幼中林碳储量的比重不断上升,表明森林植被的碳吸存潜力大;森林植被碳储量主要分布在天然林中,占同期碳储量的90%以上,但人工林的碳储能力正在逐步提高,人工林碳年均增长率(7.17%)明显大于天然林(1.83%),表明人工林将在研究区域森林植被碳汇功能中扮演重要的角色.研究区森林植被碳储量占同期全国碳储量的比例呈增加趋势,可见,研究区森林植被在全国森林碳汇中具有重要的作用和地位.