温带森林生态系统粗死木质物动态研究——以中美两个温带天然林生态系统为例

通过对我国长白山自然保护区红松针阔混交林和美国Andrews试验林异叶铁杉林的林木死亡量、粗死木质物(CWD)贮量、分解速率和它们在生态系统养分循环等方面动态研究表明,CWD是温带天然林生态系统的重要组成部分,它们在生态系统功能方面的重要性,因森林类型的不同而不尽相同,CWD在针叶林中比针阔混交林中更为重要。CWD在生态系统养分循环中的一个重要作用,很可能在于系统遭受重大外界扰动后,起到贮藏养分,增加系统稳定性的作用。未来全球森林凋落物C贮量估测时,应该包括CWD,否则将低估全球森林凋落物C贮量2.0—16×10~(13)kg,系统相对误差达2—10％。     

Coarse woody debris in Australian forest ecosystems: A review

Abstract Coarse woody debris (CWD) is the standing and fallen dead wood in a forest and serves an important role in ecosystem functioning. There have been several studies that include estimates of CWD in Australian forests but little synthesis of these results. This paper presents findings from a literature review of CWD and fine litter quantities. Estimates of forest‐floor CWD, snags and litter from the literature are presented for woodland, rainforest, open forest and tall open forest, pine plantation and native hardwood plantation. Mean mass of forest floor CWD in Australian native forests ranged from 19 t ha^?1 in woodland to 134 t ha^?1 in tall open forest. These values were generally within the range of those observed for similar ecosystems in other parts of the world. Quantities in tall open forests were found to be considerably higher than those observed for hardwood forests in North America, and more similar to the amounts reported for coniferous forests with large sized trees on the west coast of the USA and Canada. Mean proportion of total above‐ground biomass as forest floor CWD was approximately 18% in open forests, 16% in tall open forests, 13% in rainforests, and 4% in eucalypt plantations. CWD can be high in exotic pine plantations when there are considerable quantities of residue from previous native forest stands. Mean snag biomass in Australian forests was generally lower than the US mean for snags in conifer forests and higher than hardwood forest. These results are of value for studies of carbon and nutrient stocks and dynamics, habitat values and fire hazards.     

Coarse woody debris in virgin and managed forest

This study treats dead trees and their remnants in the managed and virgin forest of Rajhenavski Rog, Slovenia, at a location of Omphalodo-Fagetum omphalodetosum plant community. The study plots were selected in four forest cycle developmental phases (optimal, mixed, regeneration and juvenile phase) of both managed and virgin forest. The quantity (volume and dry matter) and the structure of coarse woody debris (CWD) were compared between the selected plots within the particular type of the forest, and between the virgin and the managed forest. Belowground CWD was quantified by modeling the tree's biomass and decaying processes of the trees. The results show significant differences in CWD between the virgin forest developmental phases. The highest concentration of CWD in the virgin forest was found in the regeneration phase (626.0 m³/ha and 179.3 t_dry matter/ha), while the juvenile phase (248.3 m³/ha and 40.2 t_dry matter/ha) has the smallest amount of CWD. Managed forest has very evenly distribution of CWD between developmental phases and it ranges from 41.0 m³/ha and 49.0 t_dry matter/ha in the mixed developmental phase to 67.0 m³/ha and 56.2 t_dry matter/ha in the juvenile phase. The main reasons for such a large differences are forest management measures (e.g. wood extraction, short rotation time, reduction of natural tree mortality), which decrease quantity, distribution and size of CWD. It was identified that forest management causes reduction and homogenization of CWD on our study plots, which can trigger degradation processes (e.g. soil erosion, reduction of site productivity, reduction of habitats). Tree heights curves show significant differences in maximum tree's height between the virgin and the managed forest. Maximum tree's height is lower in the managed forest which may indicate the reduction of forest productivity due to reduction of CWD. Study has shown some positive effects of forest management on accumulation of underground CWD in the managed forest (from 40.0 t_dry matter/ha to 48.2 t_dry matter/ha), which significantly exceeds underground CWD in the virgin forest (from 2.0 t_dry matter/ha to 22.8 t_dry matter/ha).     

森林粗死木质残体的概念及其分类

森林粗死木残体 (Coarse woody debris,CWD)在不同的文献中有不同的定义 ,没有通用而确切的概念用来描述 CWD,对研究结果的比较造成了很大障碍。 2 0世纪 90年代以来 ,随着景观生态学的发展 ,以及对 CWD生态功能的深入研究 ,国外的森林管理和研究机构 (例如 USDA Forest Service和 L TER)为了把 CWD放在区域以及景观尺度上进行比较 ,对 CWD的概念等进行了统一 ,将其直径标准由原来的≥ 2 .5 cm调整到≥ 10 cm,但是我国在此方面还没有与国际接轨 ,仍采用旧标准 (≥ 2 .5 cm ) ,这样的研究结果难于和国外进行比较 ,不利于我国 CWD的长期深入研究。另外 ,有关 CWD的分类一直以来也没有形成一个完整的分类系统 ,我国也缺少 CWD分类方法的介绍。鉴于以上情况 ,综合国内外近年来在 CWD方面的研究动态 ,综述了 CWD的概念和分类情况 ,并初步提出较综合的 CWD概念及其分类系统 ,以供相关研究者讨论和参考 ,为我国的 CWD研究起到推动作用     

森林生态系统中的粗死木质残体及其功能

粗死木质残体（Coarse Woody Debris,CWD)是指所有地上和地下小头直径＞2．5cm的死木质物,林分中CWD主要来源于个体的死亡和干扰所造成的死亡,在森林群落的生长发育过程中,CWD的数量变化呈“U”型,CWD的分解是动物和微生物吸收吸收养分,淋溶和自然破碎综合作用的结果,CWD的分解过程就是其发挥功能的过程,在此过程中各阶段都会有不同类型的生物群体利用其提供生境食物;CD具有吸收和释放养分的能力,是植物生长的营养库,是森林树木更新的良好介质;CWD是许多陆生生物和水生生物的食物来源,栖息地,避难所,哺育地,迁移通道等,在生物多样性保持方面发挥着不同替代的,在CWD的形成过程产生了林窗斑块,推动了森林生态系统的小循环,因此,CWD是森林生态系统中重要的结构性和功能性组成要素,在保持森林生态系统和水生生态系统的生物多样性及其生态过程完整性等方面起着不可替代的作用,应当给予了充分的重视。     

Characteristics in coarse woody debris mediated by forest developmental stage and latest disturbances in a natural secondary forest of Pinus tabulaeformis

Coarse woody debris (CWD) characteristics are expected to reflect forest stand features. Few studies evaluated logging-induced stand characteristics of secondary coniferous forests by quantifying the quality and quantity in CWD. After selective logging, the form of secondary forest of Pinus tabulaeformis in the Qinling Mountains is inferior and the regeneration is poor. We measured the CWD characteristics of the forest which had an average CWD biomass amount of 12.56 t hm⁻², and was predominated by abundant logs (65.68%), followed by snags (33.13%). The CWD biomass of P. tabulaeformis and Toxicodendron vernicifluum was significantly higher than that of other species, which took up 85.51% of the total. Although there was no significant difference among different diameter sizes (P > 0.05), the CWD biomass of diameter 30–40 cm occupied 46.26% of the total (5.81 t hm⁻²). Similarly, the CWD biomass of decay class I and II accounted for 39.89% (5.01 t hm⁻²) and 33.04% (4.15 t hm⁻²) of the total CWD biomass respectively, despite no significant difference among those 5 decay classes (P > 0.05). The results indicated that the combination of young forest developmental stage caused by past selective logging and natural and anthropogenic disturbances such as strong wind, tapping lacquer, firewood collection, and illegal tree felling played a crucial role in distribution characteristics of CWD in this secondary forest of P. tabulaeformis.     

广州三种森林粗死木质残体（CWD）的储量与分解特征

粗死木质残体(Coarse Woody Debris, CWD)对森林生态系统的稳定性具有不可忽视的贡献.对广州3种森林CWD的储量与分解特征进行了调查分析,结果表明:(1)CWD储量及其与相应森林总生物量比值均表现为常绿阔叶林>针阔混交林>针叶林;枯立木与倒木为CWD的主要成分,其中,针叶CWD主要物种为马尾松(Pinus massonianai),阔叶CWD物种主要为荷木(Schima superba)与黄杞(Engelhardtia chrysolepis)等.(2)CWD径级主要集中在<10cm的范围内,存在状态主要为中级腐烂状态,干扰与竞争是3种森林CWD产生的主要因素.(3)针叶林、针阔混交林与常绿阔叶林CWD的分解常数k分别为0 0244、0.0407和0.0487,即分解速率为常绿阔叶林>混交林>针叶林;随着CWD的分解,N、P与木质素的含量逐渐升高,C、C/N与木质素/N呈降低趋势.     

Coarse woody debris as a refuge from predation in aquatic communities

This study demonstrates experimentally that coarse woody debris (CWD) can provide refuge from predation in aquatic habitats. In the Rhode River subestuary of Chesapeake Bay, Maryland, (USA), we (1) measured the abundance of CWD, (2) examined the utilization of CWD by mobile epibenthic fish and crustaceans, and (3) tested experimentally the value of CWD as a refuge from predation. CWD was the dominant above-bottom physical structure in shallow water, ranging in size from small branches (<2 cm diameter) to fallen trees (>50 cm diameter). In response to experimental additions of CWD, densities of common epibenthic cpecies (Callinectes sapidus, Fundulus heteroclitus, Fundulus majalis, Gobiosoma bosc, Gobiesox strumosus, Palaemonetes pugio, and Rithropanopeus harrisii) increased significantly compared to control sites without CWD. In laboratory experiments, grass shrimp (P. pugio) responded to predatory fish (F. heteroclitus and Micropogonias undulatus) by utilizing shelter at CWD more frequently than in absence of fish. Access to CWD increased survivorship of grass shrimp in laboratory and field experiments. These experimental results (1) support the hypothesis, commonly proposed but untested for freshwater habitats, that CWD can provide a refuge from predation for epibenthic fish and invertebrates and (2) extend the recognized functional importance of CWD in freshwater to estuarine and marine communities. We hypothesize that CWD is an especially important refuge habitat in the many estuarine and freshwater systems for which alternative physical structure (e.g., vegetation or oyster reefs) are absent or in low abundance.     

Leaching of dissolved organic carbon,dissolved organic nitrogen,and other solutes from coarse woody debris and litter in a mixed forest in New York State

Coarse woody debris (CWD) may play a role in nutrient cycling in temperate forests through the leaching of solutes, including dissolved organic carbon (DOC) and dissolved organic nitrogen (DON), to the underlying soil. These fluxes need to be considered in element budget calculations, and have the potential to influence microbial activity, soil development, and other processes in the underlying soil, but studies on leaching from CWD are rare. In this study, we collected throughfall, litter leachate, and CWD leachate in situ at a young mixed lowland forest in NY State, USA over one year. We measured the concentrations of DOC, DON, NH₄⁺, NO₃⁻, dissolved organic sulfur, SO₄²⁻, Cl⁻, Al, Ca, K, Mg, Na, and P, estimated the flux of these solutes in throughfall, and measured the cover of CWD to gain some insight into possible fluxes from CWD. Concentrations of DOC were much higher in CWD leachate than in throughfall or litter leachate (15 vs. 0.7 and 1.6 mM, respectively), and greater than reported values for other leachates from within forested ecosystems. Other solutes showed a similar pattern, with inorganic N being an exception. Our results suggest that microsite scale fluxes of DOC from CWD may be An high relative to throughfall and litter leaching fluxes, but since CWD covered a relatively small fraction (2%) of the forest floor in our study, ecosystem scale fluxes from CWD may be negligible for this site. Soil directly beneath CWD may be influenced by CWD leaching, in terms of soil organic matter, microbial activity, and N availability. Concentrations of some metals showed correlations to DOC concentrations, highlighting the possibility of complexation by DOM. Several solute concentrations in throughfall, including DOC, showed positive correlations to mean air temperature, and fewer showed positive correlations in litter leachate, while negative correlations were observed to precipitation, suggesting both biological and hydrologic control of solute concentrations.     

森林生态系统粗死木质残体碳储量研究进展

粗死木质残体(CWD)是森林生态系统重要的结构性与功能性单元,作为连接植被碳库与土壤碳库的关键纽带,对全球森林生态系统碳循环发挥着重要而独特的作用,越来越多的学者开始关注CWD碳储量相关研究。系统阐述了国内外CWD碳储量研究的发展历程、研究范围与基本特征等内容,总结概括了CWD体积测算、CWD碳浓度估算等碳计量相关方法的研究进展。通过梳理发现:国内外学者对CWD碳储量的研究仍处于初级阶段,主要集中于探讨不同树种、不同林龄、不同腐解等级、不同海拔、不同存在形式的森林CWD碳储量分布特征,而较少关注CWD碳库对土壤碳库和植被碳库的作用机制以及对未来气候变化的响应和反馈机制;CWD碳计量方法较为单一,普遍采用的是传统的"生物量-碳浓度法",而运用机器学习算法对CWD碳储量进行估算的研究尚不多见。此外,相对国外研究而言,国内研究主要局限于小尺度范围。文章据此提出未来CWD碳储量研究的发展方向:(1)拓展研究尺度,建立CWD碳储量长期观测体系;(2)深入开展不同森林生态系统CWD碳储量对气候变化的响应机制研究;(3)探索更加多元化的CWD碳储量计量方法;(4)深入探讨CWD碳库对土壤碳库与植被碳...     

Coarse woody debris in undisturbed and logged forests in the eastern Brazilian Amazon

Coarse woody debris (CWD) is an important component of the carbon cycle in tropical forests. We measured the volume and density of fallen CWD at two sites, Cauaxi and Tapajós in the Eastern Amazon. At both sites we studied undisturbed forests (UFs) and logged forests 1 year after harvest. Conventional logging (CL) and reduced impact logging (RIL) were used for management on areas where the geometric volumes of logs harvested was about 25–30 m³ ha^?1. Density for five classes of fallen CWD for large material (>10 cm diameter) ranged from 0.71 to 0.28 Mg m^?3 depending upon the degree of decomposition. Density of wood within large fallen logs varied with position relative to the ground and with distance from the center of the log. Densities for materials with diameters from 2 to 5 and 5 to 10 cm were 0.36 and 0.45 Mg m^?3, respectively. The average mass (±SE) of fallen CWD at Cauaxi was 55.2 (4.7), 74.7 (0.6), and 107.8 (10.5) Mg ha^?1 for duplicate UF, RIL, and CL sites, respectively. At Tapajós, the average mass of fallen CWD was 50.7 (1.1) Mg ha^?1 for UF and 76.2 (10.2) Mg ha^?1 for RIL for duplicate sites compared with 282 Mg ha^?1 for live aboveground biomass. Small‐ and medium‐sized material (<10 cm dia.) accounted for 8–18% of the total fallen CWD mass. The large amount of fallen CWD at these UF sites relative to standing aboveground biomass suggests either that the forests have recently been subjected to a pulse of high mortality or that they normally suffer a high mortality rate in the range of 0.03 per year. Accounting for background CWD in UF, CL management produced 2.7 times as much CWD as RIL management. Excess CWD at logging sites would generate a substantial CO₂ emission given the high rates of decay in moist tropical forests.     

丰林自然保护区阔叶红松林粗木质残体研究

粗木质残体(CWD)是森林生态系统的重要组成部分,对维持森林生态系统健康具有不可忽视的贡献.采用典型取样法在黑龙江丰林国家级自然保护区设置了17块20×20m的标准样地,拟对保护区内阔叶红松林中粗木质残体的贮量、形态组成、直径、长度及腐烂度等特征进行研究.研究结果表明:(1)CWD总贮量为75.1m³·hm^-2,其中倒木,枯立木和树桩的贮量分别为.24 m³·hm^-2,2.03m³·hm^-2和7.34m³ ·hm^-2.(2)倒木和枯立木的优势径级范围分别为11cm～20cm(占CWD总数的4%)和0-10cm(45%);倒木和枯立木的优势长度范围分别为0-5m (%)和m-10m(49%).(3)CWD腐烂度呈近正态分布,且主要分布在Ⅱ(28%),Ⅲ(35%)和Ⅳ(2%)腐烂等级上.     

高山森林粗木质残体附生苔藓植物的重金属吸存特征

粗木质残体及其附生苔藓植物是高山森林生态系统中两个相互联系的基本组成部分,二者的相互作用可能影响森林生态系统重金属循环,但有关不同类型和不同腐解等级粗木质残体对附生苔藓植物重金属吸存特征尚不清楚。因此,于2015年7月在川西高山森林调查了岷江冷杉(Abies faxoniana)原始林内不同类型和不同腐解等级的粗木质残体附生苔藓镉、铅、铜和锌浓度与吸存特征。结果表明:高山森林粗木质残体附生苔藓植物Cd、Pb、Cu和Zn的总吸存量依次为4700mg/hm~2、21236mg/hm~2、6179mg/hm~2和2622mg/hm~2。粗木质残体附生苔藓的4种重金属吸存量都表现为倒木大枯枝枯立木根桩;倒木附生苔藓Cd、Pb、Cu和Zn吸存量分别占高山森林粗木质残体总吸存量的54.53%、66.08%、51.13%和66.30%,根桩附生苔藓重金属吸存量不足总吸存量的3%。粗木质残体的类型和腐解等级都会影响附生植物重金属吸存特征。随着腐解等级的增加,倒木和大枯枝附生苔藓中Cd和Pb呈现"积累-释放"的变化特征,其浓度和吸存量在第Ⅱ、Ⅲ腐解等级较高。附生苔藓Cu和Zn浓度和吸存量在不同腐解等级粗木质残体间的差异均不明显。这些结果表明,粗木质残体附生苔藓对重金属元素具有明显的吸存作用,为认识高山森林生态系统重金属元素循环及其迁移过程提供了新的思路,也为进一步了解粗木质残体在高山森林生态系统中的重要作用提供了新的角度。     

高山森林林窗和粗木质残体对木生苔藓生物量和多样性的影响

木生苔藓植物是原始森林的基本组成部分,其生长和分布对林窗和粗木质残体(CWD)等环境因子的响应可能非常敏感,但林窗和CWD对木生苔藓植物群落的影响研究未见报道。因此,我们研究了高山森林不同林窗位置(林窗、林缘和林下)和不同粗木质残体类型(倒木、大枯枝、枯立木和根桩)木生苔藓生物量(储量、单位面积生物量和生物积累量)和多样性(Shannon多样性指数、Simpson优势度指数和Pielou均匀度指数)特征。结果表明:川西高山粗木质残体木生苔藓植物生物量储量为141.14 kg/hm~2,倒木生苔藓生物量储量最大为78.80 kg/hm~2,枯立木生苔藓生物量储量最小为3.11 kg/hm~2。其中,第III、IV腐解等级粗木质残体木生苔藓生物量储量较高,在I腐解等级时为最低。整体来看不同粗木质残体类型木生苔藓单位面积生物量均在林缘最高,但不同粗木质残体类型单位面积木生苔藓生物量积累量差异显著。木生苔藓生物多样性受林窗位置和粗木质残体类型显著影响。倒木、大枯枝和根桩的苔藓Simpson优势度指数从林窗至林下均为下降趋势。倒木的苔藓Shannon多样性指数和Pielou均匀度指数在林下最高,在林缘最低。林窗大枯枝木生苔藓三种多样性指标均大于倒木。枯立木和根桩木生苔藓多样性指标随林窗变化表现各异。研究也发现,曲尾藓(Dicranum)和平藓(Neckera)在川西高山苔藓生物量中比重较大。我们的研究结果表明在高山森林生态系统中,林缘效应对木生苔藓生物量具有促进作用,但对木生苔藓生物多样性的影响作用不明显。这也意味着,森林更新导致林窗形成和CWD产生对木生苔藓生长具有显著影响。     

川西亚高山森林木质残体及其附生苔藓持水特性

木质残体及其附生苔藓是森林生态系统的基本结构,在水源涵养、水土保持、生物多样性保育、碳和养分循环等方面具有重要作用。然而,有关亚高山森林木质残体及其附生苔藓的水源涵养功能研究尚未见报道。因此,以川西亚高山针叶林区紫果云杉原始林、岷江冷杉原始林、方枝柏原始林等8种典型森林类型为研究对象,调查研究了木质残体及其附生苔藓持水能力随林型、腐烂等级和径级的变化特征。结果表明：（1）亚高山针叶林木质残体饱和储水量在林型之间变化显著。其中,紫果云杉原始林具有最大的饱和储水量（22.06 mm）,柳树次生林木质残体饱和储水量最小（4.55 mm）,但林型之间木质残体饱和持水率的差异不显著。（2）不同林型的附生苔藓持水能力具有显著差异。其中,紫果云杉原始林木质残体附生苔藓饱和储水量最高（7.01 mm）,方枝柏原始林最低（0.21 mm）。（3）腐烂等级显著影响木质残体饱和储水量,IV腐烂等级的饱和储水量较高（3.77 mm）,II腐烂等级较低（0.75 mm）;木质残体饱和持水率和附生苔藓饱和储水量与腐解程度显著正相关,均符合Q（Q''）=ex²+fx+g的函数关系式。（4）木质残体和附生苔藓的饱和储水量均随径级增大而升高,大径级（D5）的饱和储水量占比分别超过60%和40%。可见,林型和木质残体腐解程度及径级大小是决定亚高山针叶林区木质残体及其附生苔藓持水性能的关键因子,特别是附生苔藓对于提高亚高山针叶林水源涵养具有重要作用。     

Coarse woody debris can reduce mammalian browsing damage of woody plant saplings in box‐gum grassy woodlands

The critically endangered box‐gum grassy woodlands of south‐east Australia face numerous threats including the failure of woody plant regeneration caused by over‐browsing. In the Australian Capital Territory, over‐browsing of tree and shrub saplings is likely caused by dense populations of Eastern Grey Kangaroo (Macropus giganteus) found in many nature reserves free of livestock. One possible way to protect these saplings is using coarse woody debris (CWD) as a browsing deterrent. We tested this idea by planting palatable Red Stemmed Wattle (Acacia rubida) saplings among manually applied CWD, among naturally fallen CWD, and in the open, in five woodland reserves. We recorded the proportion of saplings browsed, the number of weeks to first browsing and the browsing severity (sapling height lost). Applied CWD protected saplings from being browsed only at relatively low‐to‐moderate kangaroo browsing pressure (as measured by faecal pellet counts). At relatively high browsing pressure, the probability of a sapling being browsed among applied CWD was 100%, similar to the probability in the open treatment (no CWD). Natural CWD, in contrast, provided some protection even at high browsing pressures. Time to browsing was most affected by browsing pressure, although CWD cover also had an influence. Browsing severity was similar between the three treatments and was only affected by browsing pressure. These results indicate that without protection, palatable woody plant saplings have a high chance of being browsed by kangaroos in woodland reserves, and therefore, some protection is needed for successful regeneration. The CWD being applied to reserves has a limited capacity to protect regenerating saplings. If more protection is wanted a CWD structure more resembling natural fallen timber should be used. This could be done by artificially placing branches around plantings. However, the most important action to facilitate regeneration is to manage kangaroo populations to reduce overall browsing pressure.     

Preliminary Studies on the Litterfall and Coarse Woody Debris in Mid-Mountain Humid Evergreen Broad-Leaved Forest in Ailao Mountains

The composition and amount of the litterfall and coarse woody debris (CWD), their time and space distribution and the element return were studied in mid-mountain humid ev-ergreen broad-leaved forest in Ailao Mountain in Yunnan, China. The average litterfall (leaves, wood (< 2.5 cm diameter), flower, fruit and mixed matter) was (6.77± 1.43) t/(hm2 · a) while the large wood litterfall () 2.5 cm diameter) was (0.45±0.18) t/(hm2 · a). There were two marked peaks of annual litterfalh the main one from April to May and the second one from October to November. The standing crop of CWD in the forest was 98.46 t/hm2, in which logs made up to 85.8% of the total. As the CWD was not well-distributed in the forest, it increased the diversities of structure and site in the forest ecosystem. The total storage of C, N, P, K, Ca, Mg, Mn, A1 and Fe in the CWD was 48699 t/hm2, but return of elements to the forest ground in the litterfall only made up 7.77% of the nutrient storage of the CWD.     

Woody debris contribution to the carbon budget of selectively logged and maturing mid-latitude forests

Woody debris (WD) is an important component of forest C budgets, both as a C reservoir and source of CO₂ to the atmosphere. We used an infrared gas analyzer and closed dynamic chamber to measure CO₂ efflux from downed coarse WD (CWD; diameter≥7.5 cm) and fine WD (FWD; 7.5 cm>diameter≥2 cm) to assess respiration in a selectively logged forest and a maturing forest (control site) in the northeastern USA. We developed two linear regression models to predict WD respiration: one based on WD temperature, moisture, and size (R ²=0.57), and the other on decay class and air temperature (R ²=0.32). WD respiration (0.28±0.09 Mg C ha⁻¹ year⁻¹) contributed only ≈2% of total ecosystem respiration (12.3±0.7 Mg C ha⁻¹ year⁻¹, 1999–2003), but net C flux from CWD accounted for up to 30% of net ecosystem exchange in the maturing forest. C flux from CWD on the logged site increased modestly, from 0.61±0.29 Mg C ha⁻¹ year⁻¹ prior to logging to 0.77±0.23 Mg C ha⁻¹ year⁻¹ after logging, reflecting increased CWD stocks. FWD biomass and associated respiration flux were ≈7 times and ≈5 times greater, respectively, in the logged site than the control site. The net C flux associated with CWD, including inputs and respiratory outputs, was 0.35±0.19 Mg C ha⁻¹ year⁻¹ (net C sink) in the control site and −0.30±0.30 Mg C ha⁻¹ year⁻¹ (net C source) in the logged site. We infer that accumulation of WD may represent a small net C sink in maturing northern hardwood forests. Disturbance, such as selective logging, can enlarge the WD pool, increasing the net C flux from the WD pool to the atmosphere and potentially causing it to become a net C source.Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.     

哀牢山湿性常绿阔叶林和次生林木质物残体的组成与碳贮量

研究了哀牢山山地湿性常绿阔叶林和3个主要次生演替类型(栎类萌生林、滇山杨林和旱冬瓜林)木质物残体的组成和碳贮量特征.结果表明:哀牢山徐家坝地区原生森林(常绿阔叶林)木质物残体的碳贮量达36.56t.hm-2,树种组成以腾冲栲、木果石栎和景东石栎等为主,多数是直径≥10cm的大径级、处于中等分解状态的倒木.这主要是由于该区常年潮湿温凉,木质物残体中占优势的壳斗科倒木的材质坚硬,难以分解.3类次生林木质物残体的碳贮量在1.2～5.0t.hm-2,为栎类萌生林>滇山杨林>旱冬瓜林,表现出木质物残体碳贮量随群落演替进程而逐渐增加的趋势.