尤溪天然米槠林植物碳氮磷的化学计量特征及其分配格局

以福建尤溪的天然米槠[Castanopsis carlesii(Hemsl.) Hayata]林乔木层、灌木层和草本层的26个主要优势种为研究对象,分析了植物不同器官的C、N和P含量及其比值的差异及相关性,并对不同器官C、N和P含量在不同层次间的分布特征进行了研究.结果显示:同一器官中均为C平均含量最高、P平均含量最低;其中,叶片中C、N和P含量分别为344.95 ～ 486.15、6.26 ～ 19.50和0.18 ～0.62 mg·g-1,C/N、C/P和N/P比分别为22.52 ～61.21、696.64～2 589.72和11.38 ～58.94;根系中的C、N和P含量分别为277.95 ～458.30、1.41 ～12.73和0.13 ～0.44mg·g-1,C/N、C/P和N/P比分别为34.63 ～296.17、731.45 ～3 372.69和8.81 ～34.41;乔木层和灌木层植物枝条中C、N和P含量分别为407.75 ～473.75、3.10 ～7.39和0.09～0.61 mg·g-1,C/N、C/P和N/P比分别为57.43 ～148.15、776.64～5 054.44和7.05 ～48.11;乔木层植物树干中的C、N和P含量分别为432.56 ～463.32、2.67 ～6.35和0.16 ～0.31 mg·g-1,C/N、C/P和N/P比分别为68.12 ～167.73、1 494.58 ～2 860.63和11.35 ～29.06.乔木层植物的不同器官按C含量由高至低依次排序为叶片、枝条、树干、根系,按N和P含量由高至低依次排序为叶片、枝条、根系、树干;灌木层植物的C含量在枝条中最高、根系中最低,N和P含量在叶片中最高、枝条中最低;而草本层植物地上部分的C、N和P含量均高于地下部分.除根系中的N含量与P含量呈极显著正相关外,同一器官的C、N和P含量间均无显著相关性,但与C/N、C/P和N/P比值间大多有极显著的相关性.不同器官的C、N和P含量也因植物所处层次的不同而异,其中乔木层植物叶片中均最高、草本层植物叶片中均最低;乔木层植物全株的C含量最高、N含量最低,草本层植物全株的N含量最高、C含量最低,各层植物全株的P含量比较接近.研究结果表明:尤溪天然米槠林内植物叶片的C、N和P含量均偏低,P缺乏很可能是限制该林分植物生产力的最重要元素.     

马尾松和苦槠林根际土壤矿化和根系分解CO2释放的温度敏感性

以中亚热带马尾松林和苦槠林为对象,原位收集根际和非根际土壤、树木不同生态功能的根系,开展15℃、25℃、35℃和45℃恒温培养模拟试验,采用密闭气室碱液吸收法测定53 d内CO2释放的动态变化.结果表明:两种森林类型不同温度下土壤矿化CO2释放速率的根际效应介于1.12 ～3.09,且培养前期高于培养后期;15℃下马尾松林和苦槠林差异不显著,25℃和35℃下前者低于后者,45℃下则相反.不同培养温度下两树种吸收根分解的CO2释放速率均高于过渡根和贮存根,且马尾松均低于苦槠.两种森林类型CO2释放的Q10值均为土壤(1.21 ～1.83)显著高于根系(0.96 ～1.36).两种森林类型土壤矿化CO2释放的Q10值差异不显著,而马尾松根系分解CO2释放的Q10值高于苦槠.推断全球变暖导致的土壤矿化CO2释放的增量将远远高于根系分解,且马尾松林高于苦槠林;地带性顶极群落应对气候变化的抵抗力强于先锋树种群落.     

格氏栲幼苗叶绿素荧光和非结构性碳水化合物积累对种子散布位置的响应

植物种子从母树掉落形成土壤种子库时,凋落物或土壤是其最初接触的物理环境,种子所处位置(种子在凋落物上层、土壤表层或凋落物下层)影响了幼苗天然更新进程。模拟格氏栲种子在凋落物上层(种子下层铺垫2和4 cm凋落物)、土壤表层(无凋落物)及凋落物下层(种子上层覆盖2、4、6和8 cm凋落物)等3种不同散布位置,探讨种子散布位置对幼苗叶绿素荧光特性、非结构性碳水化合物、比叶面积、叶干物质含量和养分含量的影响。结果表明:不同散布位置的幼苗单位面积的叶氮含量与可溶性糖、非结构性碳水化合物含量呈显著正相关,与比叶面积呈显著负相关。适宜凋落物覆盖(2和4 cm)的幼苗通过提高叶绿素相对含量、可溶性糖含量、非结构性碳水化合物含量、叶干物质含量和单位面积的叶氮含量和叶磷含量,降低比叶面积等的资源获取策略来实现自身快速生长需求。无凋落物和深层凋落物覆盖(6和8 cm)的幼苗采取高单位重量的叶氮含量和比叶面积,低叶干物质含量和非结构性碳水化合物含量的资源保守型策略以截获更多有效光资源,进而弥补深层凋落物带来的郁闭环境,降低幼苗因“碳饥饿”而死亡的几率。下层铺垫凋落物的幼苗通过在叶片储藏淀粉,降低叶片光合组织消耗能量(低PSⅡ最大光化学效率)等维持幼苗生长。熵值法综合分析表明,浅层凋落物覆盖(2 cm)对格氏栲幼苗生长的促进作用最为显著,未来可通过调节天然林凋落物层厚度以促进格氏栲幼苗生长与更新。     

浙江天台山甜槠群落研究

以分布在浙江省天台山的甜储群落为对象,分析了群落的特征和性质。甜储群落中,甜储的优势突出,呈单优势群落。群落垂直结构复杂,可分为乔木层、灌木层、草本层,亦有一定数量的层间植物。乔木层的物种多样性指数偏低,这与特定生境所形成的单优势群落有关。各样地间的植物种类具有较高的相似性,群落内种类组成相对一致。群落内优势种群甜储、木荷的年龄结构属稳定型或增长型,它们在各样地的分布格局均呈集群分布。     

武夷山自然保护区不同海拔甜槠天然林土壤有机碳变化特征及影响因素

为揭示中亚热带常绿阔叶林建群种--甜槠天然林不同海拔土壤有机碳含量垂直分布差异及影响机制，以武夷山自然保护区甜槠天然林单一植被类型为研究对象，在其集中分布的5个海拔梯度（540、700、850、1022、1200 m）范围内设置固定样地，测定每个海拔梯度不同深度土层土壤因子（土壤全氮、全磷、土壤pH值、容重、土壤有机质、粉粒、砂粒、粘粒）、气候因子（土壤温度）、植被因子（细根生物量）及土壤有机碳含量等指标，分析了土壤有机碳沿海拔及垂直土层分布特征，并在主成分分析基础上构建了基于主控因子的线性回归模型。结果表明：（1）同一海拔高度，土壤有机碳含量在土壤垂直剖面分布具有明显的"表聚性"现象；同一土层深度，随着海拔升高，土壤有机碳含量逐渐增加，但增幅随土层深度增加而减小，高海拔地区有助于土壤有机碳的固存；（2）不同土层土壤有机碳含量与海拔、土壤全氮、土壤含水量、土壤粉粒呈极显著正相关（P<0.01），与土壤温度、土壤容重、土壤粘粒、砂粒呈极显著负相关（P<0.01）；土壤细根生物量、土壤有机质与土壤有机碳含量在土壤表层（0-10、10-20 cm）呈极显著（P<0.01）或显著正相关（P<0.05）；土壤pH值、土壤砂粒与土壤有机碳含量在20-30 cm土层呈显著负相关（P<0.05），但与其他土层关系不显著（P>0.05）；海拔因素是影响土壤有机碳含量分布的主要因素，其次为土壤因素，植被因素主要影响土壤表层有机碳含量分布。（3）海拔因素能通过影响与土壤有机碳形成和转化的因子及改变土壤有机碳的累积和分解速率，对土壤有机碳的分布产生影响。（4）多元线性回归模型拟合R²高于一元线性回归模型拟合R²，能解释土壤有机碳含量变异的82.1%-98.1%。由此可见，不同环境因子组合可以更好的解释不同土层土壤有机碳含量随海拔梯度的变异。     

Fine root production of Pinus massoniana plantation and Castanopsis carlesii plantation at different successional stages in subtropical China

AimsOur objectives were to determine differences in fine root production, its relationships with environmental factors, and its diameter- and depth-related distribution patterns between plantations of two subtropical tree species differing in successional stages. MethodsPlantation forests of an early-successional species, Pinus massoniana, and a late-successional species, Castanopsis carlesii, in Sanming, Fujian Province, were selected. Fine root production was monitored for two years using minirhizotrons methods. At the same time, environmental factors including monthly air temperature, monthly precipitation, soil temperature, and soil water content were determined.Important findings 1) During the two years, there was significant difference in annual fine root length production between these two forests, with annual production of P. massoniana plantation nearly four times that of C. carlesii plantation. Fine root length production under both forests showed significant monthly dynamics and maximized in summer, a season when most of fine roots were born. 2) Roots of 0-0.3 mm in diameter accounted for the largest proportion of total fine root length production. Fine roots were concentrated mostly at the 0-10 cm soil depth in P. massoniana plantation, but happened mostly at the 30-40 cm soil depth in the C. carlesii plantation. 3) Partial correlation analysis suggested that, monthly fine root production of both forests was significantly correlated with both air temperature and soil temperature, while it had no significant correlation with either rainfall or soil water content. Linear regression analysis illustrated that monthly fine root production was more correlated with air temperature and soil temperature in the P. massoniana plantation than in the C. carlesii plantation. It was concluded that fine root production in the early-successional P. massoniana plantation was not only much higher in amount, but also more sensitive to temperature, than that in the late-successional C. carlesii plantation.     

The biomass and aboveground net primary productivity of <Emphasis Type="Italic">Schima superba-Castanopsis carlesii</Emphasis> forests in east China

The biomass and productivity of Schima superba-Castanopsis carlesii forests in Tiantong, Zhejiang Province, were determined using overlapping quadrants and stem analyses. The total community biomass was (225.3±30.1) t hm⁻², of which the aboveground parts accounted for 72.0% and the underground parts accounted for 28.0%. About 87.2% of biomass existed in the tree layer. The resprouting biomass was small, of which over 95.0% occurred in the shrub layer. The productivity of the aboveground parts of the community was (386.8±98.9) g m⁻²a⁻¹, in which more than 96.0% was present at the tree level. The trunk’s contribution to productivity was the greatest, while that of leaves was the smallest. In China, the community biomass of subtropical evergreen broadleaved forests differs significantly with the age of the forest. The community biomass of the 52-year-old S. superba-C. carlesii forests in this study was lower than the average biomass of subtropical evergreen broadleaved forests in China, and was lower than the biomass of other subtropical evergreen broadleaved forests elsewhere in the world. Moreover, its productivity was lower than the model estimate, indicating that without disturbance, this community has great developmental potential in terms of community biomass and productivity.     

南亚热带3种阔叶树种人工幼龄纯林及其混交林碳贮量比较

如何通过优化造林模式来提高人工林生态系统碳贮量已受到广泛关注。以南亚热带8年生格木(Erythrophleum fordii)纯林(PE)、红锥(Castanopsis hystrix)纯林(PC)、米老排(Mytilaria laosensis)纯林(PM)及格木×红锥×米老排混交林(MECM)生态系统为研究对象,对其碳贮量及其分配特征进行了比较研究。结果表明:格木、红锥和米老排不同器官平均碳含量分别为512.4—561.7 g/kg,474.2—553.4 g/kg和512.8—556.3 g/kg。相同树种不同器官之间碳含量差异显著(P0.05)。各器官碳含量的平均值大小顺序为格木(539.3 g/kg)米老排(532.7 g/kg)红锥(515.3 g/kg)。不同林分间,灌木层、草本层和凋落物层碳含量均以米老排纯林最高,混交林(MECM)居次,红锥纯林和格木纯林最低;不同林分之间的土壤碳含量差异显著(P0.05),0—10cm,10—30cm,30—50cm和50—100cm土壤碳含量均以米老排纯林最高,红锥纯林居次,格木纯林和混交林(MECM)土壤碳含量最低。生态系统碳贮量大小顺序为米老排(308.0 t/hm2)混交林(182.8 t/hm2)红锥纯林(180.2 t/hm2)格木纯林(135.2 t/hm2),相同组分不同林分间以及相同林分的不同组分间均存在显著差异(P0.05),但混交林与红锥纯林间碳贮量总量无显著差异(P0.05)。造林模式对人工林碳贮量及其分配有显著影响,营建混交林有利于红锥和格木地上碳的累积,不利于土壤碳的固定,而营建纯林既有利于米老排生物量碳的吸收,也有利于土壤碳的固定。因而,对碳汇林造林模式的选择,应根据树种固碳特性而定。     

浙江天台山甜槠种群遗传结构的空间自相关分析

采用空间自相关分析方法对浙江天台山亚热带常绿阔叶林优势种甜槠种群全部个体及不同年龄级个体的小尺度空间遗传结构进行了分析,以探讨甜槠种群内遗传变异的分布特征及其形成机制。根据11个ISSR引物所提供的多态位点,经GenAlEx 6软件计算地理坐标和遗传距离矩阵在10个距离等级下的空间自相关系数。在样地内,甜槠种群内个体在空间距离小于10 m时存在显著的正空间遗传结构,其X-轴截矩为9.945。甜槠种群的空间遗传结构与其种子短距离传播和广泛的花粉传播有关。Ⅰ年龄级、Ⅱ年龄级和III年龄级个体在空间距离小于10 m时存在显著的正空间遗传结构,其X-轴截矩分别为11.820、9.746和9.792。当距离等级为5 m时,其空间自相关系数r分别为0.068、0.054和0.070。Ⅳ年龄级个体在所有空间距离等级中均不存在显著的空间遗传结构。甜槠是多年生、长寿命植物,自疏作用是导致IV年龄级个体空间遗传结构消失的主要原因。     

Revision of the genus <Emphasis Type="Italic">Placostromella</Emphasis> and inclusion of <Emphasis Type="Italic">Palawaniella castanopsis</Emphasis> as a third species

The current status of Placostromella (Ascomycota, Dothideomycetes inc. sed.) is discussed, and a third species is added to the genus based on Palawaniella castanopsis J.N. Kapoor. Both species occur on living leaves of Castanopsis (Fagaceae) in South and East Asia. Placostromella castanopsis and the type P. macrospora are fully redescribed and illustrated.