1987年特大火灾后不同树种种植比例对大兴安岭森林景观的长期影响

应用空间直观景观模型(LANDIS)模拟了1987年大兴安岭北坡图强林业局特大森林火灾后在目前种植强度下,不同落叶松和樟子松种植比例(100%落叶松(P₁)、70%落叶松和30%樟子松(P₂)、50%落叶松和50%樟子松(P₃)、30%落叶松和70%樟子松(P₄)、100%樟子松(P₅)以及完全依靠天然更新(P₀)条件下森林景观的长期动态变化.结果表明,在演替的前期、中期和后期,不同种植比例均对落叶松、樟子松和白桦有显著影响;落叶松所占的面积百分比随时间的推移均呈上升趋势,而樟子松则相反;在各种植预案下,落叶松和樟子松的面积百分比均高于天然更新预案的比例,随着落叶松种植比例的增加,落叶松的多度也相应增加;樟子松在该区所占的面积百分比也随其种植比例的增大而增加.白桦在天然更新预案下所占的面积百分比明显高于种植预案下所占的比例;而不同落叶松和樟子松种植比例也对白桦面积有较大影响,樟子松种植的比例越大,白桦所占的面积百分比越高,说明落叶松比樟子松有更强的竞争能力.但P₂、P₃和P₄预案下,落叶松和樟子松的面积所占比例相差不大,但要高于完全种植落叶松(P₁)或樟子松(P₅)所占的比例.     

1987年大兴安岭特大火灾后北坡森林景观生态恢复评价

通过空间直观景观模型(LAND IS)来探讨大兴安岭北坡1987年特大森林火灾后,在目前这种恢复方案下以及完全依靠天然更新下森林景观的长期动态,通过对比研究来评价目前所采取的恢复措施是否能够有效地恢复森林资源。研究结果表明:1987年大火后所采取的恢复措施可以在很大程度上增加针叶树种在该区所占的比例,而相应地降低阔叶树种的比重。由于在目前的恢复措施下,不仅大面积地种植针叶树种,同时也采伐了大量的成、过熟林,使落叶松和樟子松的蓄积量在开始阶段不仅没有增加,反而有大幅度的下降。但最终,所更新的幼苗逐渐成材,落叶松和樟子松的蓄积量逐渐超过天然更新下的。在演替前期,白桦的蓄积量在这2种模拟方案下相差不大;而在演替后期,白桦在天然更新方案下的蓄积量要高于在目前恢复措施下的蓄积量。另外,物种在不同的区域的变化动态又有较大的差异。在重度火烧区,由于人为种植大量的针叶树种,使它们所占的面积比例明显高于完全依靠天然更新下其在重度火烧区所占的比例;而阔叶树种则相反,在完全依靠天然更新方案下所占的面积百分比明显高于在目前恢复方案下的比例。而在未火烧和轻中度火烧区,由于火后人为采伐大量的落叶松和樟子松,使这2个树种在该区所占的比例在开始100多年里要低于完全依靠天然更新下的比例,随后逐渐高于天然更新下所占的比例,但相差不大;阔叶树种则正好相反。另外,目前恢复方案不仅极大地改变了主要物种在该区所占的比例,而且还明显的影响了它们的空间分布格局。     

大兴安岭森林火灾中主要乔木树种含碳气体释放总量的估算

应用排放因子法估算了1980—2005年间大兴安岭林区森林火灾中5种主要乔木树种含碳气体总的释放量.结果表明：不同乔木树种燃烧释放含碳气体的排放因子不同,其中樟子松的CO₂平均排放因子最大, 山杨的CO₂平均排放因子最小;落叶松和山杨的CO和C_xH_y平均排放因子最大,山杨和落叶松的CO和C_xH_y平均排放因子最小.结合5种主要乔木树种各器官的含碳率和总生物量,得出25年间5种乔木共释放CO₂ 16.58 Tg、CO 1.61 Tg、C_xH_y 0.54 Tg. 其中落叶松的CO₂、CO和C_xH_y释放量分别为5.00、0.63和0.05 Tg; 樟子松为0.225、0.023和0.003 Tg; 白桦为11.22、0.83和0.41 Tg;山杨为0.022、0.004和0.00034 Tg;蒙古栎为3.12、0.13和0.062 Tg.     

火控制政策对大兴安岭森林景观、可燃物动态及火险的长期影响

大兴安岭50年来严格的火控制政策已经极大地改变了自然火格局,同时也改变了森林的物种组成和年龄结构。理解大兴安岭森林对长期火控制的响应是制定森林可持续发展的依据之一。本文应用LANDIS模型模拟了大兴安岭森林景观对自然火(1950年以前)和灭火(1950年以后)的长期响应(300年)。结果表明：灭火显著增加了落叶松面积,增加其过熟林面积,减少其幼龄林面积;同时也显著减少白桦面积,减少其幼龄林面积;灭火延长火烧轮回期,火烧次数减少,灾难性火灾发生的机率增加,火险在模拟的50年内迅速上升到高火险等级。在自然火格局下,火险在整个模拟过程中保持较低的等级。所以如果现行的高强度灭火政策继续实施的话,必须要制定大范围的可燃物管理措施(计划火烧、粗可燃物处理等),以降低灾难性火灾发生的机率。计划火烧加粗可燃物去除将成为可燃物管理和森林可持续经营的首选措施。如何评价大兴安岭地区可燃物处理措施的效果,在保持木材生产和生态作用稳定的条件下,最大程度地降低火险也是亟待解决的问题。     

不同针阔树种造林比例下小兴安岭森林景观的动态模拟

采用空间直观森林景观模型（LANDIS）模拟了不同针、阔树种造林比例（P1,100%阔叶树;P2,70%阔叶树、30%针叶树;P3,50%阔叶树、50%针叶树;P4,30%阔叶树、70%针叶树;P5,100%针叶树）和采伐后完全依赖天然更新（P6）6种预案下2001—2201年小兴安岭友好林业局森林景观的动态变化.结果表明：人工更新造林措施可以有效地促进研究区森林资源的恢复,但单一营造针叶树的预案会使其阔叶树的面积百分比低于P6预案,而单一地营造阔叶树会导致该预案下针叶树的面积百分比低于P6预案;随着针叶树种造林比例的增加,针叶树（红松和落叶松）所占面积比例随之增加;随着阔叶树种造林比例的增加,阔叶树（蒙古栎）所占面积亦随之增加;人工更新造林措施减少了研究区白桦的分布面积.不同的造林措施不仅改变树种所占的面积百分比,还影响其空间格局：随着针叶树种造林比例的增加,针叶树（红松和落叶松）的聚集度指数随之增加;随着阔叶树种造林比例的增加,阔叶树（蒙古栎）的聚集度指数随之增加;人工更新造林措施对白桦的聚集度指数无明显影响.     

大兴安岭呼中林业局森林景观格局变化及其驱动力

以大兴安岭呼中林业局为研究区,利用TM数据、森林资源清查数据和采伐统计资料,结合野外调查,以GIS为技术手段,剖析研究区1989～2000年景观变化,结果表明该区主要景观类型为针叶林、针阔混交林和阔叶林,这3种类型面积总比例达90%以上,其他景观类型面积比例小于10%,主要有荒草地、火烧迹地、采伐迹地、沼泽、居民点和道路.10a间景观由原有的大面积连续的针叶林为基质、小面积的阔叶林和针阔混交林斑块散布其中的格局,转变成大面积针阔混交林为基质的格局.研究区1989年是成过熟林、高公顷蓄积量、高郁闭度占优势的景观,2000年中幼龄林、低公顷蓄积量和低郁闭度森林面积增大,并趋于连续,形成低质量的相对均质化的景观.最后,结合历史资料,通过比较分析火烧、人工更新、土地利用和人为采伐活动这几种主要驱动力的特征,论证了采伐活动在该地区景观变化中所发挥的主导作用.     

云南松居群核型变异及其分化研究

在分析研究6个云南松居群核型变异的基础上,应用常规统计方法和巢式分析方法,在常规染 色体水平上探讨云南松居群间、个体间和细胞间的变异式样及其分化。结果如下:(1)云南松居群核型 变异不显著,6个居群的核型公式均为2n=24m(6～10SAT),核型类型均为1A。(2)云南松居群仅相 对长度系数、臂比和次缢痕数目及其分布有小的变化。6个居群染色体相对长度系数(I．R．L)分别为: 滇中居群P1=16M₂+6M₁+2S;滇东南居群P2=14M₂+8M₁+2S;滇西居群P3=12M₂+10M₁+2S; 地盘松居群P4=14M₂+8M₁+2S;细叶云南松居群P5=14M₂+8M₁+2S;云南松与思茅松渗入杂交 居群P6=10M₂+12M₁+2S。(3)巢式方差等级分析表明,云南松染色体结构变异有10％左右来源于居群间,有90％左右来源于居群内个体间或细胞间。     

塔河林业局林火对植被的影响

针对大兴安岭地区塔河林业局不同林型下,不同火烧强度的火烧迹地的森林植被更新及恢复情况进行了调查研究。结果表明：（1）针叶林过火迹地上,落叶松幼苗较少,阔叶树萌条更新强度同火烧程度成正比;火烧前生长有白桦、赤杨的林地上,火烧后阔叶树成为主导树种,林相完全发生变化。（2）重度火烧下有利于天然更新,促使白桦、山杨萌生。中度火烧最初形成以杨桦为优势树种的阔叶林,后逐渐演变为针阔混交林。轻度火烧有利于针叶林的更新。（3）火烧后不同林型下灌木草本植被种类变化不同。从盖度方面来看,杜鹃落叶松林型中林下灌木草本更新最为良好。     

外源NO对增补UV-B辐射下兴安落叶松幼苗叶片光合色素和叶绿素荧光特性的影响

在增强UV-B辐射下,以3年生兴安落叶松幼苗为实验材料,研究了外源NO供体硝普钠(Sodium nitroprusside,SNP)对幼苗的光合色素（Chla、Chlb和Car）和叶绿素荧光参数的影响。方差分析结果表明0.5 mmol·L^-1的SNP对增补UV B胁迫下的兴安落叶松幼苗产生显著影响。0.5 mmol·L^-1的SNP能够显著抑制增补UV-B辐射后光合色素、F_v/F_m、Φ_PSⅡ、F_v′/F_m′和qP的明显下降以及Chla /Chlb、F_o和NPQ的升高。表明了外源NO能够减轻UV-B辐射胁迫下兴安落叶松幼苗光合反应中心的生理损伤,从而增强兴安落叶松幼苗对增补UV-B辐射胁迫环境的适应能力。     

大兴安岭北部地区原始林火干扰历史的研究

在大兴安岭阿龙山林业局的一个集水区,通过样地法（９６个样地）,调查了大量的火疤木,研究了景观水平上的火状况。结果表明,由１８２５至１９９３年间样区共发生１４次火灾,火烧种类主要是地表火,但也有少量树冠火;火烧强度主要为弱度火;火场面积通常很大;火烧平均间隔期为３７ａ,火烧轮回期的约３０ａ。这些指标对大于大兴安岭北部林区有一定的代表意义。大兴安岭北部林区的火状况主要决定于兴安落叶松的抗火特性和森林群     

Wildfires affect tree growth and resilience in Northeastern China natural Dahurian larch forests: A dendrochronological perspective

Wildfires are natural and ubiquitous disturbances in boreal forests. Assessing their impacts on tree growth and resilience are particularly important to recognize the adaptation strategies of fire-tolerant species and forest succession in fire conditions. To date, the growth resilience of fire-tolerant species in boreal forests remains largely unquantified, and the drivers of resilience are poorly understood. Here, we measured the tree-ring widths of 99 fire-scarred trees from three sites in natural Dahurian larch (Larix gmelinii) forests. Three moderate-severity fire events in years 1987, 1990, and 2000 occurring at three sites were detected from the records of local forestry bureau. Based on tree-ring width data, we calculated resilience components (i.e., resistance, recovery, resilience and relative resilience) to quantify the responses of growth resilience in the larch trees to fires and analyzed their drivers at three sites. Results indicated that fires significantly reduced the tree growth. With the increasing tree age, these reductions were more pronounced. As for resilience components, our study showed a limited resistance but high recovery of tree growth against fires, and resistance tended to increase northwards but recovery showed the opposite, suggesting a growth-survival tradeoff was exhibited in Dahurian larch trees. With an increasing tree age, regional resistance and resilience showed a decreasing trend, whereas recovery and relative resilience showed an increasing trend. Resilience components were mainly affected by the climatic factors in spring. An increase in moisture availability enhanced resistance, a reduction in diurnal temperature range enhanced recovery, and an increase in mean temperature enhanced resilience and relative resilience. This study reveals that Dahurian larch could be even less favorable when faced with moderate or severe fire events, but a high capacity of recovery enables this species to adapt to the fire-prone condition. Moreover, this work highlights that the resilience of tree growth should be considered to understand tree behaviors and survival strategies of boreal forests following fires across fire-prone regions under future climate warming.     

大兴安岭落叶松林不同演替阶段土壤细菌群落结构与功能潜势

采用土壤细菌16S rDNA高通量测序方法研究了大兴安岭汗马自然保护区落叶松林不同演替阶段的土壤细菌群落结构和功能.结果表明: 不同演替阶段落叶松林土壤细菌优势门为变形菌门、酸杆菌门、疣微菌门、拟杆菌门、放线菌门、浮霉菌门和绿弯菌门,随着演替的进行,酸杆菌门相对丰度逐渐增加,绿弯菌门相对丰度逐渐减少,优势门相对丰度在不同演替阶段不同.细菌群落α多样性在不同演替阶段间无显著差异,但其群落结构分别在落叶松幼龄林与中龄林、幼龄林与过熟林、近熟林与成熟林之间存在显著差异.土壤氧化还原电位、土壤pH和有效磷是影响细菌群落结构的主要环境因素,其中土壤氧化还原电位对微生物群落结构影响最大.随着演替的进行,细菌参与的固氮作用、反硝化作用、氨氧化作用、木质素降解作用呈逐渐减弱的趋势,硫酸盐异化还原作用呈先降后升的趋势,碳固定作用呈先升后降的趋势,碱性磷酸酶没有明显的变化规律,影响土壤功能的主要因素有土壤有效磷和氧化还原电位等.     

The influence of fire on carbon distribution and net primary production of boreal Larix gmelinii forests in north-eastern China

The boreal larch forest of Eurasia is a widespread forest ecosystem and plays an important role in the carbon budget of boreal forests. However, few carbon budgets exist for these forests, and the effects of wildfire, the dominant natural disturbance in this region, on carbon budgets are poorly understood. The objective of this study was to quantify the effects of wildfire on carbon distribution and net primary production (NPP) for three major Dahurian larch (Larix gmelinii Rupr.) forest ecosystems in Tahe, Daxing'anling, north‐eastern China: Larix gmelinii–Ledum palustre, Larix gmelinii–grass and Larix gmelinii–Rhododendron dahurica forests. The experimental design included mature forests (unburned), and lightly and heavily burned forests from the 1.3‐million‐ha 1987 wildfire. We measured carbon distribution and above‐ground NPP, and estimated fine root production from literature values. Total ecosystem carbon content for the mature forests was greatest for Larix–Ledum forests (251.4 t C ha^?1) and smallest for Larix–grass forests (123.8 t C ha^?1). Larix–Ledum forests contained the smallest vegetation carbon (13.5%), while Larix–Rhododendron contained the largest vegetation carbon (63.1%). Fires tended to transfer carbon from vegetation to detritus and soil. Total NPP did not differ significantly between the lightly burned and unburned stands, and averaged 1.58, 1.29 and 1.01 t C ha^?1 year^?1 for Larix–grass, Larix–Rhododendron and Larix–Ledum lightly burned stands, respectively. Above‐ground net primary production (ANPP) of heavily burned stands was 92–95% less than unburned and lightly burned stands. The estimated carbon loss during the 1987 fire showed substantial variability among forest types and fire severity levels. Depending upon the assumptions made about the fraction of the landscape occupied by the three larch forest types, the 1987 conflagration in north‐east China released 2.5 × 10⁷?4.9 × 10⁷ t C to the atmosphere. This study illustrates the need to distinguish between the different larch forests for developing general carbon budgets.     

气候变化和不同强度造林对大兴安岭主要树种林分信息和地上生物量的长期影响

气候变化及相应火干扰在不同尺度上影响着我国大兴安岭地区森林动态,且在未来的影响可能继续加剧。为了提高森林生态功能和应对气候变暖,国家在分类经营基础上全面实施抚育采伐和补植造林,效果较好,但抚育采伐对森林主要树种的长期影响知之甚少,其在未来气候下的可持续性也有待进一步评估,同时,探讨造林措施对未来森林的影响也显得尤为重要。本文运用森林景观模型LANDIS PRO,模拟气候变化及火干扰、采伐和造林对大兴安岭地区主要树种的长期影响。结果表明:1)模型初始化、短期和长期模拟结果均得到了有效验证,模拟结果与森林调查数据之间无显著性差异(P0.05),基于火烧迹地数据的林火干扰验证亦能够反映当前火干扰的效果,模型模拟结果的可信度较高;2)与当前气候相比,气候变暖及火干扰明显改变了树种组成、年龄结构和地上生物量,B1气候下研究区森林基本上以针叶树种为主要树种,A2气候下优势树种向阔叶树转变;3)与无采伐预案相比,当前气候下,抚育采伐使落叶松的林分密度和地上生物量分别降低了(165±94.9)株/hm~2和(8.5±5.1) Mg/hm~2,增加了樟子松、白桦和云杉等树木株数和地上生物量(3.3—753.4株/hm~2和0.2—4.0 Mg/hm~2),而对山杨的影响较小;B1和A2气候下抚育采伐显著改变林分密度,降低景观尺度地上生物量,进而表现为不可持续;4)B1气候下,推荐实施中低强度造林预案(10%和20%强度),在A2气候下,各强度造林均可在模拟后期增加树种地上生物量。     

呼中林业局森林采伐方式对森林景观格局的长期影响

采用空间直观景观模型(LANDIS)模拟了大兴安岭地区呼中林业局在无采伐和同一采伐量下皆伐、二次渐伐和择伐共4种方案下森林景观300年的长期动态变化。结果表明,与无采伐方案相比较,采伐使落叶松和云杉的分布面积减小,樟子松、白桦的分布面积增大;择伐对本区分布面积最大的2个树种———落叶松和白桦的影响最小。采伐改变了树种年龄结构,降低了过熟林的相对面积;相对于皆伐而言,渐伐和择伐时降低的程度较大。各种采伐方式间落叶松和云杉的聚集度差异较小,白桦和樟子松的聚集度则存在显著差异。     

Impacts of fire severity and post-fire reforestation on carbon pools in boreal larch forests in Northeast China

Aims Boreal larch (Larix gmelinii) forests in Northeast China have been widely disturbed since the 1987 conflagration; however, its long-term effects on the forest carbon (C) cycling have not been explored. The objective of this study thus was to quantify the effects of fire severity and post-fire reforestation on C pools and the changes of these forests.Methods Sixteen permanent plots have been set in two types of larch stands (L. gmelinii -grass, LG; and L. gmelinii-Rhododendron dahurica, LR) with three levels of fire severity (unburned, low-severity and high-severity but replanted), at 1987 burned sites in Daxing'anling, northeastern China, to repeatedly measure ecosystem C pools in 1998 and 2014. C components were partitioned into vegetation (foliage, branch, stem and roots), soil and detritus (standing and fallen woody debris and litter). The fire effects on post-fire C dynamics were examined by comparing the differences of C pools and changes between the two field investigations caused by fire severity.Important findings During the study period, unburned mature stands were C sinks (105g C m ?2 year^-1 for LG, and 190g C m ?2 year^-1 for LR), whereas the low-severity stands were C-neutral (?4 and 15g C m ?2 year^-1 for LG and LR, respectively). The high-severity burned but reforested stands were C sinks, among which, however, magnitudes (88 and 16g C m ?2 year^-1 for LG and LR, respectively) were smaller than those of the two unburned stands. Detritus C pools decreased significantly (with a loss ranging from 26 to 38g C m ?2 year^-1) in the burned stands during recent restoration. Soil organic C pools increased slightly in the unmanaged stands (unburned and low-severity, with accumulation rates ranging from 4 to 35g C m ?2 year^-1), but decreased for the high-severity replanted stands (loss rates of 28 and 36g C m ?2 year^-1 for LG and LR, respectively). These results indicate that fire severity has a dynamic post-fire effect on both C pools and distributions of the boreal larch forests, and that effective reforestation practice accelerates forest C sequestration.     

Carbon Accumulation Patterns During Post-Fire Succession in Cajander Larch (Larix cajanderi) Forests of Siberia

Increased fire activity within boreal forests could affect global terrestrial carbon (C) stocks by decreasing stand age or altering tree recruitment, leading to patterns of forest regrowth that differ from those of pre-fire stands. To improve our understanding of post-fire C accumulation patterns within boreal forests, we evaluated above- and belowground C pools within 17 Cajander larch (Larix cajanderi) stands of northeastern Siberia that varied in both years since fire and stand density. Early-successional stands (<20-year old) exhibited low larch recruitment, and consequently, low density, aboveground larch biomass, and aboveground net primary productivity (ANPP_tree). Mid-successional stands (21- to 70-year old) were even-aged with considerable variability in stand density. High-density mid-successional stands had 21 times faster rates of ANPP_tree than low-density stands (252 vs. 12?g?C?m^?2?y^?1) and 26 times more C in aboveground larch biomass (2,186 vs. 85?g?C?m^?2). Density had little effect on total soil C pools. During late-succession (>70-year old), aboveground larch biomass, ANPP_tree, and soil organic layer C pools increased with stand age. These stands were low density and multi-aged, containing both mature trees and new recruits. The rapid accumulation of aboveground larch biomass in high-density, mid-successional stands allowed them to obtain C stocks similar to those in much older low-density stands (~8,000?g?C?m^?2). If fire frequency increases without altering stand density, landscape-level C storage could decline, but if larch density also increases, large aboveground C pools within high-density stands could compensate for a shorter successional cycle.     

火烧强度和火后恢复时间对大兴安岭森林土壤有机碳含量的影响

在大兴安岭针叶林生态系统中,林火是驱动森林结构与功能变化的主要因子之一,对土壤碳循环过程产生了深刻影响.本研究在大兴安岭林区选择不同火烧强度(轻度、中度、重度)和火烧年份(1987-2012年)的火烧迹地开展野外调查,分土壤发生层(O层、A层、AB层、BC层、C层)采集样品,采用双因素方差分析和多重比较法,分析了火烧强度和火后恢复时间对森林土壤有机碳含量的影响.结果表明: 中度和重度火烧后,土壤O层有机碳含量呈逐年上升趋势;A、B层土壤有机碳含量在轻、中度火烧后呈逐年下降趋势,其随时间的变化情况为火后3年>火后5年>火后10年>火后10年以上,在重度火烧后的10年之内呈逐年上升趋势,但在火后10年以上又迅速下降;BC层有机碳含量变化无明显规律.