秦岭太白山桦林的稳定性

本文论述了桦林的稳定性。文中认为桦林地质时期和现代都可形成地带性森林,它是凉温湿润气候的顶极群落,分布在暖温带落叶阔叶林与湿冷生针叶林之间的凉温湿润地带。因此这类林的区系组成无论地质时期或现代,都是以暖温带落叶阔叶林和寒温带针叶林的混合成分为特征。     

青藏高原晚新生代植被史及其气候特征

从青藏高原目前已知的６０余个剖面和钻孔揭示的大量古植物资料来看,由于喜马拉雅山的强烈隆升、地质事件及全球气候变化,青藏高原晚新生代植被发生显著的变化。中新世进入上新世,植被由森林型变为草原型。在中新世晚期植被按纬向分为三带,南带为亚热带硬叶常绿阔叶林－雪松林,中带为暖温带落叶阔叶林及灌丛,北带即昆仑山北坡为山地常绿针叶林及森林草原。山地的高差已使植被出现垂直分带现象。上新世早中期气候转凉,原北带出     

中国东部森林植被带划分之我见

简要回顾了中国东部森林植被带划分研究的历史及当前存在的争论。提出了中国东部植被带划分应以植被本身的特征,特别是地带性的生物群落集为主要依据,同时参照它们的区系组成和气候指标。根据上述原则将中国东部划分为6个植被带∶北方针叶林带、凉温带针阔混交林带、温带落叶阔叶林带、暖温带常绿落叶阔叶混交林带、亚热带常绿阔叶林带和热带雨林、季雨林带,并对各植被带的特征作了简要的描述。阐述了对一些植被带名称、界线改动的原因,特别讨论了我国常绿落叶阔叶混交林以及常绿阔叶林生物气候带的归属问题,认为前者归属于暖温带植被,后者归属于亚热带植被为宜。     

中国东部森林植被带划分之我见

简要回顾了中国东部森林植被带划分研究的历史及当前存在的争论。提出了中国东部植被带划分应以植被本身的特征，特别是地带性的生物群落集为主要依据，同时参照它们的区系组成和气候指标。根据上述原则将中国东部划分为６个植被带∶北方针叶林带、凉温带针阔混交林带、温带落叶阔叶林带、暖温带常绿落叶阔叶混交林带、亚热带常绿阔叶林带和热带雨林、季雨林带，并对各植被带的特征作了简要的描述。阐述了对一些植被带名称、界线改动的原因，特别讨论了我国常绿落叶阔叶混交林以及常绿阔叶林生物气候带的归属问题，认为前者归属于暖温带植被，后者归属于亚热带植被为宜。     

东亚暖温带落叶阔叶林的起源

以对北京百花山种子植物区系起源的分析为例,探讨了暖温带落叶阔叶林的起源,认为:世界暖温带落叶阔叶林在植物区系起源上是统一的,东亚暖温带落叶阔叶林是基本类型,中国西南的亚热带山地是它们的发源地。     

云南元谋古猿生活时期自然环境的讨论

元谋古猿生活时期的自然环境是森林草原或疏林-草原,还是茂密的森林? 气候是凉干还是温暖潮湿? 本文试图从云南6个最具代表性中新世沉积盆地取得的丰富植物大化石和孢粉资料分析, 论证了中新世时期云南曾广泛分布热带或亚热带常绿阔叶林或落叶阔叶和常绿阔叶混交林。气候温暖湿润。至中新世最晚期, 落叶阔叶林和针叶林分布面积扩大, 气候变得凉干。与元谋古猿相邻的禄丰古猿生活时期及其前后正是经历了相同的环境变迁过程。由此推论元谋古猿生活时期的自然环境为茂密的森林, 气候温暖湿润。最后, 就《元谋古猿》专著对古猿生活时期的自然环境分析存在的问题进行了讨论。     

暖温带针阔叶林下土壤微生物区系群落特征及其动态研究

实施森林分类经营导致土壤微生物生态的变化,是保护区生态环境监测的任务之一。结合甘肃天水小陇山土壤微生物多年调研资料,在总结针叶林和阔叶林下微生物群落特征的基础上,比较了阔叶林转化为针叶林后土壤微生物的动态。结果表明:1暖温带阔叶林土壤微生物数量和分布特征的生态幅较小,针叶林较大;2针阔林下土壤微生物群落优势菌属相同,但针叶林的优势属葡萄球菌属(Staphylococcus)及稀有菌属头孢霉属(Cephalosporium)在阔叶林未出现,阔叶林常见属交链孢霉属(Alternaria)在针叶林未出现;3暖温带阔叶林土壤微生物多样性指数均大于针叶林,针、阔叶林下功能菌群类型且其数量排序基本一致;4阔叶林转变为针叶林后,对不同时期土壤微生物群落的数量、分布、种属组成、多样性和功能菌群等特征的全面分析认为,土壤微生物逐步适应了地上植被的变化,即微生物与环境关系的建立与地上植被类型的关系更密切。     

长白山地区森林生态系统树附生苔藓植物群落分布格局研究

 以苔藓植物盖度为指标,应用双向指示种分析(TWINSPAN)和除趋势对应分析(DCA)对长白山地区不同森林类型36个样地的树附生苔藓植物群落分布格局进行了研究。结果表明,长白山地区树附生苔藓植物的分布格局与森林植被类型相对应,可分成落叶松林、岳桦林、暗针叶林、暗针叶林与红松阔叶林间过渡林、红松阔叶林、白桦林6类树附生苔藓植物群落类型,文章分析了影响树附生苔藓植物群落生态分布的环境因素。     

紫金山森林植被性质与常绿落叶阔叶混交林重建可能性的探讨

紫金山财处长江下游南岸,按中国植被区划,从属于亚热带北缘,其森林植被类型具有亚热带常绿阔叶林向暖温带落叶阔林过渡的特征。从紫金册现状植被来看,具有明显人为扰动痕迹,虽然人工针叶林仍占有重要地位,但现状植被正入于明显的演替之中,一方面以马尾松为优势的阳性针叶林已处于日益衰退境地;另一方面,以栓皮栎、枫香为优势的天然次生落叶阔叶林正在迅速恢复,而苦槠、冬青、石楠等常绿阔叶树种在林中明显增多,在局部区域     

秦岭山区人工林地枯落叶客置对土壤生物、化学性质的影响

通过对秦岭山区日本落叶松、油松、灰楸和锐齿栎4种典型人工纯林2年的枯落叶客置试验,探讨了枯落叶客置对土壤生物、化学性质的影响,以及不同树种的种间关系.结果表明：阔叶林枯落叶的年分解速率高出针叶林33.70%.当针叶林枯落叶被客置到阔叶林地后,年分解速率提高8.35%～12.15%,而当阔叶林枯落叶被客置到针叶林地后,年分解速率下降5.38%～9.49%.针阔树种间的枯落叶客置均能不同程度地提高土壤有机碳、速效氮、速效磷和速效钾的含量,且针叶林地的增幅(8.70%～35.84%)明显大于阔叶林地(3.73%～10.44%),其中针叶林地客置灰楸枯落叶后的增幅(24.63%～35.84%)大于客置锐齿栎枯落叶(8.70%～28.15%). 客置阔叶林枯落叶使针叶林地土壤由偏酸向中性方向发展, 土壤酶活性、微生物量C、N含量及其微生物数量提高,其中,客置灰楸枯落叶的增幅大于客置锐齿栎枯落叶;客置针叶林枯落叶后阔叶林地土壤酶活性、微生物量C、N含量及其微生物数量变化因树种而异,其中锐齿栎林地土壤酶活性和微生物量C、N含量有所提高,而灰楸林地却有所下降.客置阔叶林地枯落叶可改善针叶林地的土壤性质,而客置针叶林枯落叶后阔叶林地的效应则因树种而异.说明在人工纯林土壤退化的防治过程中,引入其他树种形成混交林或进行枯落叶客置都应注意种间关系的方向性.     

辽宁东部的主要植被类型及其分布

辽宁东部位于铁岭一营口一线以东地区。北部为山地,属于长白植物区系区。南部为辽东半岛丘陵,属于华北植物区系区,并具有一些耐寒性的亚热带植物。红松(Pinus koraiensis)、沙松(Abies holophylla)—阔叶混交林和油松 (Pinus tabulaeformis)、赤松(P.densiflora)、落叶阔叶林是辽宁东部的地带性植被。但是,目前次生的蒙古栎(Quercus mongolica)林和各类灌丛分布很广。以开原一南杂木一青城子一青椅山线为界把辽东分为两个植被地带：1)北部为温带针叶阔叶混交林地带;2)南部为暖温带落叶阔叶林地带。在暖温带落叶阔叶林地带内,熊岳一青椅山线的东南部为亦松栎林亚地带,西北部为油松栎林亚地带。     

On the Evolution of the Palynoflora and Climatic Environment During Late Pleistocence in Tengger Desert,China

Palynoflora studies on the Duantouliang section, located at 39º40'N, 103º55'E in Northwestern Tengger Desert, China showed that, based on the spore-pollen assemblages, the major vegetation and climatic environment between 42 000 to 23 000 a BP could be divided into the following different periods: Ⅰ. From 42 000 to 38 000 a BP, the spore-pollen assemblages displayed that the mixed conifer/deciduous broad-leaved forests developed on the mountain and its foothill regions where the bare Gobi-desert are at present; At that time, Populus and Salix forests and grassland surrounded the Paleaolake, the climate condition was much warmer and humid than today; Ⅱ. From 38 000 to 37 000 a BP, the climate was warm and moist, it was the most suitable period for the plant growth, the studied area was dominated by the temperate and warm-temperate mixed broad-leaf deciduous and needleleaf forest, there was meadow spreaded on the river sides and lake beaches; Ⅲ. From 31 000 to 30000 a BP, the needleleaf forests and cold-temperate Salix oritrepha shrubs were flourishing, and the climate at that time was relatively cold;Ⅳ. From 30000 to 28000 a BP, the temperatures began increasing, the high lake levels was formed during this time, and the vegetations were meadows and swamps; V. From 28 000 to 23 000 a BP, temperate Cupressaceae and Betula mixed conifer/deciduous forests grew on mountain and foothill region, grassland developed on plain areas, Salix was on lake and river sides. This indicates a warm and moist climate condition but it was drier than the earliest period.     

湖南城步南山的植被及其合理利用

 城步南山是我国南方规模最大的牧场,总面积138,345亩(9,223公顷)。南山地区的植被,根据生态外貌原则划分为常绿针叶林、常绿落叶阔叶混交林,落叶阔叶林,灌丛、竹丛、草丛,农作物,经济林和果园等10个主要类型。现在的草丛是森林遭受破坏的次生植被。本区在开发利用上,应以发展林业为主,实行林牧结合。山地坡度大于35˚的必须发展林业,25—34˚的坡地要林牧兼顾,小于24˚者可以发展牧业,并营造各类防护林。     

Evaluating Spatial-Temporal Dynamics of Net Primary Productivity of Different Forest Types in Northeastern China Based on Improved FORCCHN

An improved individual-based forest ecosystem carbon budget model for China (FORCCHN) was applied to investigate the spatial-temporal dynamics of net primary productivity of different forest types in northeastern China. In this study, the forests of northeastern China were categorized into four ecological types according to their habitats and generic characteristics (evergreen broadleaf forest, deciduous broadleaf forest, evergreen needleleaf forest and deciduous needleleaf forest). The results showed that distribution and change of forest NPP in northeastern China were related to the different forest types. From 1981 to 2002, among the forest types in northeastern China, per unit area NPP and total NPP of deciduous broadleaf forest were the highest, with the values of 729.4 gC/(m²•yr) and 106.0 TgC/yr, respectively, followed by mixed broadleaf- needleleaf forest, deciduous needleleaf forest and evergreen needleleaf forest. From 1981 to 2002, per unit area NPP and total NPP of different forest types in northeastern China exhibited significant trends of interannual increase, and rapid increase was found between the 1980s and 1990s. The contribution of the different forest type’s NPP to total NPP in northeastern China was clearly different. The greatest was deciduous broadleaf forest, followed by mixed broadleaf- needleleaf forest and deciduous needleleaf forest. The smallest was evergreen needleleaf forest. Spatial difference in NPP between different forest types was remarkable. High NPP values of deciduous needleleaf forest, mixed broadleaf- needleleaf forest and deciduous broadleaf forest were found in the Daxing’anling region, the southeastern of Xiaoxing’anling and Jilin province, and the Changbai Mountain, respectively. However, no regional differences were found for evergreen needleleaf NPP. This study provided not only an estimation NPP of different forest types in northeastern China but also a useful methodology for estimating forest carbon storage at regional and global levels.     

再论中国植被分区的原则和方案

 本文首先提出中国植被分区的原则和依据以及高级分区单位的标志,将全国划分为八大植被区,其中有五个区包括两个亚区,因作者主张亚区与区作为同一级的辅助单位看待,所以实际上把全国分为13个高级植被分区单位。除少数例外,每一植被区或亚区都分为一过渡带和典型带。全文以植被区或亚区、植被地带或亚地带为单位,论述其植被特点。     

植被气候关系与我国的植被分区

气候制约着植被的地理分布,植被是区域气候特征的反映和指示,两者之间存在密不可分的联系.揭示植被与气候之间的关系是正确认识植被分布的前提,是进行植被区划的理论基础.植被区划是植被研究的归纳和总结,是其他自然地理区划和农林业区划的基础.本文在简要回顾中国植被气候关系及植被分区的研究历史的基础上,对我国以往的主要植被分区原则、依据和方案进行了评述,对有争议的主要植被界线进行了讨论.我们认为,在当今我国大部分地区的原生植被已遭到破坏的现实情况下,根据原生植被及其衍生植被类型的分布,确定其分布与限制性气候因子的关系,以此来进行植被带(区)的划分,不仅反映植被气候间密不可分的关系,在实践上也便于操作.尽管在一些植被带的命名、具体界线的划定上有分歧,但最近的中国植被分区方案大都认为我国基本的植被区有8至9个,即针叶林、针阔叶混交林、落叶阔叶林、常绿落叶阔叶混交林、常绿阔叶林以及雨林季雨林、草原、荒漠以及高寒植被.通过分析主要植被带附近的植被、气候等特征,本文认为,1)秦岭淮河线是一条重要的水分气候带,而不是温度带,不是亚热带植被的北界;2)我国亚热带植被的北界基本上沿长江北岸,从杭州湾经太湖、安徽宣城、铜陵经大别山南坡到武汉往西,与WI值130-140 ℃·月一致;3)我国热带区域的面积极小,仅分布在海南岛的东南部和台湾南端及其以南地区; 4) 我国东部地区暖温带的水热条件南北差异甚大,建议以秦岭淮河为界,将暖温带划分为两个植被带,即落叶阔叶疏林带和落叶常绿阔叶混交林带;华北地区的地带性植被为落叶阔叶疏林.最后,本文还强调了对应于气候变化进行动态植被分区的重要性.     

Latitudinal patterns of magnitude and interannual variability in net ecosystem exchange regulated by biological and environmental variables

Over the last two and half decades, strong evidence showed that the terrestrial ecosystems are acting as a net sink for atmospheric carbon. However the spatial and temporal patterns of variation in the sink are not well known. In this study, we examined latitudinal patterns of interannual variability (IAV) in net ecosystem exchange (NEE) of CO₂ based on 163 site-years of eddy covariance data, from 39 northern-hemisphere research sites located at latitudes ranging from ∼29°N to ∼64°N. We computed the standard deviation of annual NEE integrals at individual sites to represent absolute interannual variability (AIAV), and the corresponding coefficient of variation as a measure of relative interannual variability (RIAV). Our results showed decreased trends of annual NEE with increasing latitude for both deciduous broadleaf forests and evergreen needleleaf forests. Gross primary production (GPP) explained a significant proportion of the spatial variation of NEE across evergreen needleleaf forests, whereas, across deciduous broadleaf forests, it is ecosystem respiration (Re). In addition, AIAV in GPP and Re increased significantly with latitude in deciduous broadleaf forests, but AIAV in GPP decreased significantly with latitude in evergreen needleleaf forests. Furthermore, RIAV in NEE, GPP, and Re appeared to increase significantly with latitude in deciduous broadleaf forests, but not in evergreen needleleaf forests. Correlation analyses showed air temperature was the primary environmental factor that determined RIAV of NEE in deciduous broadleaf forest across the North American sites, and none of the chosen climatic factors could explain RIAV of NEE in evergreen needleleaf forests. Mean annual NEE significantly increased with latitude in grasslands. Precipitation was dominant environmental factor for the spatial variation of magnitude and IAV in GPP and Re in grasslands.     

Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr BP

Aim This paper documents reconstructions of the vegetation patterns in Australia, Southeast Asia and the Pacific (SEAPAC region) in the mid‐Holocene and at the last glacial maximum (LGM). Methods Vegetation patterns were reconstructed from pollen data using an objective biomization scheme based on plant functional types. The biomization scheme was first tested using 535 modern pollen samples from 377 sites, and then applied unchanged to fossil pollen samples dating to 6000 ± 500 or 18,000 ± 1000 ¹⁴C yr bp . Results 1. Tests using surface pollen sample sites showed that the biomization scheme is capable of reproducing the modern broad‐scale patterns of vegetation distribution. The north–south gradient in temperature, reflected in transitions from cool evergreen needleleaf forest in the extreme south through temperate rain forest or wet sclerophyll forest (WSFW) and into tropical forests, is well reconstructed. The transitions from xerophytic through sclerophyll woodlands and open forests to closed‐canopy forests, which reflect the gradient in plant available moisture from the continental interior towards the coast, are reconstructed with less geographical precision but nevertheless the broad‐scale pattern emerges. 2. Differences between the modern and mid‐Holocene vegetation patterns in mainland Australia are comparatively small and reflect changes in moisture availability rather than temperature. In south‐eastern Australia some sites show a shift towards more moisture‐stressed vegetation in the mid‐Holocene with xerophytic woods/scrub and temperate sclerophyll woodland and shrubland at sites characterized today by WSFW or warm‐temperate rain forest (WTRF). However, sites in the Snowy Mountains, on the Southern Tablelands and east of the Great Dividing Range have more moisture‐demanding vegetation in the mid‐Holocene than today. South‐western Australia was slightly drier than today. The single site in north‐western Australia also shows conditions drier than today in the mid‐Holocene. Changes in the tropics are also comparatively small, but the presence of WTRF and tropical deciduous broadleaf forest and woodland in the mid‐Holocene, in sites occupied today by cool‐temperate rain forest, indicate warmer conditions. 3. Expansion of xerophytic vegetation in the south and tropical deciduous broadleaf forest and woodland in the north indicate drier conditions across mainland Australia at the LGM. None of these changes are informative about the degree of cooling. However the evidence from the tropics, showing lowering of the treeline and forest belts, indicates that conditions were between 1 and 9 °C (depending on elevation) colder. The encroachment of tropical deciduous broadleaf forest and woodland into lowland evergreen broadleaf forest implies greater aridity. Main conclusions This study provides the first continental‐scale reconstruction of mid‐Holocene and LGM vegetation patterns from Australia, Southeast Asia and the Pacific (SEAPAC region) using an objective biomization scheme. These data will provide a benchmark for evaluation of palaeoclimate simulations within the framework of the Palaeoclimate Modelling Intercomparison Project.     

甘南地区植被在植被分区上的位置

地处岷山峡谷山地,包括白龙江、洮河中、上游在内的甘南林区位于东经103°10′—104°40′北纬32°30′—34°50′之间,即甘肃迭部、舟曲、临潭、卓尼、文县等县的大部或部分地区。这一地区植被应划为青藏高原高寒植被区域,高原东南部山地寒温性针叶林亚区域,山地寒温性针叶林地带,并应连同四川松潘、南坪之白龙江上游及其支流——白水江上游一起组成新的植被区——岷山峡谷山地,落叶阔叶林、云、冷杉林区。