Season dynamics of carbon use efficiency and its influencing factors in the old-growth Abies fabri forest in Gongga Mountain,western Sichuan,China

碳利用效率(CUE)是植被生态系统的一个重要功能参数, 反映了植被生态系统的固碳能力, 适用于分析不同时间段内器官、个体和群落等不同层次的碳收支趋势, 因而有助于对陆地生态系统碳功能的确定与预测, 引起了广泛关注。该研究采用生物计量法, 测定和计算了川西贡嘎山东坡峨眉冷杉(Abies fabri)成熟林树木不同器官的呼吸与净生产力动态, 分析了乔木层及其各器官CUE动态及主要影响因子, 并估算了乔木层不同径级树木CUE。主要结果: (1)乔木层各器官月呼吸速率与温度呈正相关关系, 以细根月呼吸速率为最大; 不同径级树木年呼吸量无显著差异, 以小径级树木树干的年呼吸量为最小。(2)乔木层细根和树干月净初级生产力(NPP)均随温度增加而增加, 以细根月NPP为最大。小径级树木年NPP最大, 其针叶年NPP也显著高于中径级和大径级树木。(3)林分乔木层及其各器官CUE大多集中在0.30-0.60之间, 其中细根、树干CUE具有相似的月变化动态, 均随温度的升高而上升。不同径级树木CUE及树干和针叶CUE均随树木个体的增大而明显下降。(4)气温和土壤温度与乔木层树干和细根CUE呈正相关关系, 而降水量与针叶CUE呈负相关关系。细根CUE与树干CUE呈正相关关系,与针叶CUE呈负相关关系。峨眉冷杉成熟林乔木层CUE主要取决于树干和细根CUE。该研究证实了川西亚高山暗针叶成熟林仍具有较强的碳汇功能, 在区域碳储存和森林生态系统碳循环中发挥着极其重要的作用。     

元宝山冷杉群落主要树木种群间联结关系的研究

元宝山冷杉 (Ａｂｉｅｓｙｕａｎｂａｏｓｈａｎｅｎｓｉｓ)是广西特有的珍稀濒危植物 ,为古老的残遗物种 ,它对研究我国古代植物区系的发生和演变 ,以及古气候、古地理 ,特别是对第四纪冰期气候的探讨有学术价值[6] 。元宝山冷杉仅分布于广西北部融水县的元宝山蓝坪峰一带 ,种群个体数量不足 90 0株 ,天然更新不良 ,多为老树及幼树、幼苗 ,罕见青壮年个体。研究元宝山冷杉群落主要树木种群间的联结关系 ,对于研究种群间的相互作用 ,群落的组成和动态 ,阐明种群生态学以及进一步保护好元宝山冷杉 ,保存物种多样性 ,具有重要的现实意义。1　…     

长江上游暗针叶林优势树种峨嵋冷杉的树体分维结构研究

以长江上游亚高山地区水碛物、坡积物上的原始峨嵋冷杉为研究对象,采用分形几何理论剖析了树体分枝结构,结果表明,峨嵋冷杉树冠的最大冠幅出现在树冠下部的20％处,其体积可以用圆台与圆锥来模拟,主干与侧枝分枝均长短相间排列,树冠表面积和侧枝发枝结构具有分形分布特征,分形维数分别为2．3232和1．8119,相关系达0．99。     

升温突变对川西道孚林线川西云杉和鳞皮冷杉生长的影响

高山林线作为理想的全球气候变化监测器,是研究植被与气候变化关系的重要场所。利用川西道孚县高山林线川西云杉（Picea likiangensis var.balfouriana）和鳞皮冷杉（Abies squamata）的年轮宽度资料,基于树木年代学的方法,构建差值年表并通过升温突变前后（1995年前后）年轮指数与气候要素的相关分析,探讨了该区林线主要针叶树种的年轮响应变化,为研究青藏高原地区树木与气候响应关系提供研究基础。结果表明：（1）年尺度上,1995年气温突变前后川西云杉和鳞皮冷杉年轮指数和生长弹性时间变化趋势均不显著,没有发生显著的响应分歧现象。（2）月尺度上,升温突变前川西云杉年轮指数与前一年11月月均最高温、5-7月月均温、6月月均最高温、7月月均最低温呈显著正相关;鳞皮冷杉则与前一年11月月均温、11月月均最高温和12月月均温呈显著正相关;表明升温突变前林线树木生长分别受夏季和冬季温度控制;升温突变后川西云杉年轮指数与前一年11月月均温呈显著负相关,和当年2月降水量及7月月均最低温呈显著正相关;而鳞皮冷杉则与当年5月月均温和5月月均最低温呈显著负相关,与5月降水的正相关性达到最大;表明升温突变后林线川西云杉生长依然受夏季温度控制,而鳞皮冷杉生长则受到春季干旱胁迫的影响。未来气候若随着升温出现干暖化,则林线鳞皮冷杉可能会发生明显的响应分歧现象。     

Sky exposure, crown architecture, and low-temperature photoinhibition in conifer seedlings at alpine treeline

In the alpine-treeline ecotone of the Snowy Range in Wyoming, USA, microsite sky exposure of Englemann spruce ( Picea englemannii ) and subalpine fir ( Abies lasiocarpa ) seedlings (< 5 years) was associated with the avoidance of low-nocturnal temperatures and high insolation, factors which appeared to result in low-temperature photoinhibition. In a field experiment, light-saturated photosynthesis ( A _sat) in current-year seedlings (newly germinated) of fir increased significantly (approximately seven-fold) in response to increased long-wave irradiance at night (warming), solar shading (approximately five-fold), and the combination of the two treatments (approximately eight-fold). A _sat in current-year spruce remained unchanged in response to all treatments, but was over four-times higher than fir in control plots. These results indicated substantial low-temperature photoinhibition, and were supported by similar A _sat trends in natural seedlings. Increased needle inclination and clustering in more exposed microsites for both species implicates the possible role of structural adaptations for decreased sky exposure and warmer leaf temperatures at night.     

SEM study of the inner periclinal surface of leaf cuticles in the family Pinaceae

Characters of the internal cuticle surface of 82 species of Pinaceae (ranging over nine genera) have been investigated using both light and SEM. Considerable variation is demonstrated in details of the intercellular flanges and in the fine sculpturing of the periclinal surface. Nine different sculpturing patterns are recognized. There is systematic value in this character; species within genera can usually be distinguished on the basis of cuticle structure, except in Cedrus and Larix .     

Contrasting responses to climate change at Himalayan treelines revealed by population demographics of two dominant species

1. Alpine treelines are expected to shift upward due to recent climate change. However, interpretation of changes in montane systems has been problematic because effects of climate change are frequently confounded with those of land use changes. The eastern Himalaya, particularly Langtang National Park, Central Nepal, has been relatively undisturbed for centuries and thus presents an opportunity for studying climate change impacts on alpine treeline uncontaminated by potential confounding factors.
2. We studied two dominant species, Abies spectabilis (AS) and Rhododendron campanulatum (RC), above and below the treeline on two mountains. We constructed 13 transects, each spanning up to 400 m in elevation, in which we recorded height and state (dead or alive) of all trees, as well as slope, aspect, canopy density, and measures of anthropogenic and animal disturbance.
3. All size classes of RC plants had lower mortality above treeline than below it, and young RC plants (<2 m tall) were at higher density above treeline than below. AS shows little evidence of a position change from the historic treeline, with a sudden extreme drop in density above treeline compared to below. Recruitment, as measured by size–class distribution, was greater above treeline than below for both species but AS is confined to ~25 m above treeline whereas RC is luxuriantly growing up to 200 m above treeline.
4. Synthesis. Evidence suggests that the elevational limits of RC have shifted upward both because (a) young plants above treeline benefited from facilitation of recruitment by surrounding vegetation, allowing upward expansion of recruitment, and (b) temperature amelioration to mature plants increased adult survival. We predict that the current pure stand of RC growing above treeline will be colonized by AS that will, in turn, outshade and eventually relegate RC to be a minor component of the community, as is the current situation below the treeline.