基于自组织特征映射模型(SOFM)网络的中国自然资源生态安全区划

自然资源生态安全是国家安全的重要组成部分,自然资源生态安全区划对保障区域可持续发展提供了重要途径。基于自然资源数据、生态环境数据和相关区划资料,从生态敏感性与生态服务重要性角度构建了自然资源生态安全评价指标体系,进而揭示了中国自然资源生态安全的空间格局;通过建立区划的原则和指标,按照一级区主要反映自然资源空间分布格局,二级区主要揭示自然资源生态安全水平的差异,采用SOFM网络制订了中国自然资源生态安全区划方案。结果显示：(1)中国自然资源生态安全水平整体偏低,以中警与重警状态区域为主,安全和较安全状态的区域仅占24.22%,其中低安全等级区多分布于400mm等降水量线以西的干旱、半干旱区,高安全等级区则集中分布于水热资源与生物资源较为丰富的东南部地区;(2)中国自然资源生态安全区划方案包括8个一级区与27个二级区,总结归纳各大区自然资源的特征和威胁生态安全的问题,并针对二级区自然资源生态安全状况提出了对策建议。研究结果可为分区、分类推进全国自然资源可持续利用和国土空间优化提供理论支持与决策依据。     

滤减UV-B辐射对烟叶腺毛发育和密度动态变化的影响

以烟草品种"K326"为材料,盆栽种植于自然环境条件下(CK)和覆盖不同厚度透明薄膜,分别滤减25%(T1)、50%(T2)和65%(T3)UV-B辐射的大棚中,在"K326"开花期至工艺成熟后期的4个生育期,通过扫描电镜观察了各处理烟叶腺毛形态和密度动态变化特征,并首次报道了"K326"中存在分枝腺毛。结果表明:上表皮腺毛在开花期、生理成熟期和工艺成熟前期对UV-B辐射敏感,下表皮则在开花期和工艺成熟后期对UV-B辐射敏感;T3处理腺毛密度低且延缓腺毛的发育,T1和T2处理腺毛密度较高,在工艺成熟期出现二次发育现象;各处理烟叶腺毛以长柄腺毛为主,CK、T1、T2下表皮腺毛总密度大于上表皮,而T3上、下表皮差异不大;滤减UV-B辐射有利于烟叶下表皮长柄腺毛发育,而引起腺毛二次发育的腺毛类型依处理和时期而异;适当较高强度的UV-B辐射对烟叶腺毛发育有促进作用,在研究地减弱25%～50%的UV-B辐射强度对烟叶腺毛发育较为合适。     

The role of plasticity in resource capture by plants

Comparative experiments measuring the form and extent of plant responses to environmental factors allow an ecologically important distinction to be made between morphological plasticity and cellular acclimation. The two phenomena are associated with different sets of plant traits with which they occur with highest fidelity and potency at opposite ends of productivity gradients. A trade-off between scale and precision occurs with respect to the responses of plants to patchiness in resource supply and this provides valuable predictors of the status achieved by species in plant communities.     

Towards comparable assessment of the soil nutrient status across scales—Review and development of nutrient metrics

Nutrient availability influences virtually every aspect of an ecosystem, and is a critical modifier of ecosystem responses to global change. Although this crucial role of nutrient availability in regulating ecosystem structure and functioning has been widely acknowledged, nutrients are still often neglected in observational and experimental synthesis studies due to difficulties in comparing the nutrient status across sites. In the current study, we explain different nutrient‐related concepts and discuss the potential of soil‐, plant‐ and remote sensing‐based metrics to compare the nutrient status across space. Based on our review and additional analyses on a dataset of European, managed temperate and boreal forests (ICP [International Co‐operative Programme on Assessment and Monitoring of Air Pollution Effects on Forests] Forests dataset), we conclude that the use of plant‐ and remote sensing‐based metrics that rely on tissue stoichiometry is limited due to their strong dependence on species identity. The potential use of other plant‐based metrics such as Ellenberg indicator values and plant‐functional traits is also discussed. We conclude from our analyses and review that soil‐based metrics have the highest potential for successful intersite comparison of the nutrient status. As an example, we used and adjusted a soil‐based metric, previously developed for conifer forests across Sweden, against the same ICP Forests data. We suggest that this adjusted and further adaptable metric, which included the organic carbon concentration in the upper 20 cm of the soil (including the organic fermentation‐humus [FH] layer), the C:N ratio and of the FH layer, can be used as a complementary tool along with other indicators of nutrient availability, to compare the background nutrient status across temperate and boreal forests dominated by spruce, pine or beech. Future collection and provision of harmonized soil data from observational and experimental sites is crucial for further testing and adjusting the metric.     

First contact: Understanding the relationship between hominoid incisor curvature and diet

Accurately interpreting fossil primate dietary behaviour is necessary to fully understand a species' ecology and connection to its environment. Traditional methods developed to infer diet from hominoid teeth successfully group taxa into broad dietary categories (i.e., folivore, frugivore) but often fail to represent the range of dietary variability characteristic of living apes. This oversimplification is not only a consequence of poor resolution, but may also reflect the use of similar fallback resources by closely related taxa with dissimilar diets. This study demonstrates that additional dietary specificity can be achieved using a morphometric approach to hominoid incisor curvature. High-resolution polynomial curve fitting (HR-PCF) was used to quantify the incisor curvatures of closely related hominoid taxa that have dissimilar diets but similar morphological adaptations to specific keystone resources (e.g., Gorilla gorilla beringei vs. G. g. gorilla). Given the key role of incisors in food processing, it is reasonable to assume that these teeth will be at least partially influenced by the unique selective pressures imposed by the mechanical loading specific to individual diets. Results from this study identify a strong correlation between hominoid dietary proportions and incisor linear dimensions and curvature, indicating that more pronounced incisor curvature is positively correlated with higher levels of frugivory. Hard-object frugivores have the greatest mesiodistal and cervico-incisal curvature and dedicated folivores have the least curved incisors. Mixed folivore/frugivores are morphological intermediates between dedicated folivores and hard- and soft-object frugivores. Mesiodistal curvature varied only in the degree of curvature; however, cervico-incisal curvature was shown to differ qualitatively between more frugivorous and more folivorous taxa. In addition to identifying a greater range of dietary variability among hominoids, this study also demonstrates that HR-PCF is capable of identifying morphological distinctions between closely related taxa with overlapping diets that rely on similar fallback foods (e.g., Pan paniscus vs. P. troglodytes).     

黑龙江牡丹峰自然保护区鸟类多样性分析

为了更好地了解牡丹峰自然保护区的鸟类资源,保护和维持生态平衡,2005年7月至2008年2月对牡丹峰自然保护区鸟类资源进行了调查.共记录到鸟类14目30科93种.占全国鸟类总数的7.86%,其中留鸟18种,夏候鸟56种,冬候鸟4种,旅鸟12种,偶见种3种,分别占总数19.4%、60.2%、4.3%、12.9%和3.23%.     

Enhanced root exudation stimulates soil nitrogen transformations in a subalpine coniferous forest under experimental warming

Despite the perceived importance of exudation to forest ecosystem function, few studies have attempted to examine the effects of elevated temperature and nutrition availability on the rates of root exudation and associated microbial processes. In this study, we performed an experiment in which in situ exudates were collected from Picea asperata seedlings that were transplanted in disturbed soils exposed to two levels of temperature (ambient temperature and infrared heater warming) and two nitrogen levels (unfertilized and 25 g N m^?2 a^?1). Here, we show that the trees exposed to an elevated temperature increased their exudation rates I (μg C g^?1 root biomass h^?1), II (μg C cm^?1 root length h^?1) and III (μg C cm^?2 root area h^?1) in the unfertilized plots. The altered morphological and physiological traits of the roots exposed to experimental warming could be responsible for this variation in root exudation. Moreover, these increases in root‐derived C were positively correlated with the microbial release of extracellular enzymes involved in the breakdown of organic N (R² = 0.790; P = 0.038), which was coupled with stimulated microbial activity and accelerated N transformations in the unfertilized soils. In contrast, the trees exposed to both experimental warming and N fertilization did not show increased exudation rates or soil enzyme activity, indicating that the stimulatory effects of experimental warming on root exudation depend on soil fertility. Collectively, our results provide preliminary evidence that an increase in the release of root exudates into the soil may be an important physiological adjustment by which the sustained growth responses of plants to experimental warming may be maintained via enhanced soil microbial activity and soil N transformation. Accordingly, the underlying mechanisms by which plant root‐microbe interactions influence soil organic matter decomposition and N cycling should be incorporated into climate‐carbon cycle models to determine reliable estimates of long‐term C storage in forests.     

MULTIDIMENSIONAL ANALYSIS OF RESOURCE UTILIZATION IN ASSEMBLAGES OF RANGELAND GRASSHOPPERS (ORTHOPTERA: ACRIDIDAE)

Abstract  A study was conducted in a typical steppe area in central Inner Mongolia to determine resource utilization in time, space, and food by grasshopper assemblages. Pattern of use for these resources was analyzed from three vegetation types by examining species-specific niche breadths, overlaps and partitions of resource utilization as well as population sizes. Popular niche indices and the principal components analysis (PCA) procedure were used to indicate the interrelations among grasshopper species. In the heterogeneous grassland environments resulting from livestock grazing, eleven grasshopper species were categorized respectively based on the 3-dimensional niche segregation and overlap degree. Population sizes were determined by the calorific values of their realized population biomass. Comparison in niche breadth displayed that species which had a broad niche along one dimension at least had a narrow niche along another one. There were sufficient differences between species for overall overlap associated with resource use to explain coexistence in the assemblages by resource segregation. Distinct rule of niche complementarity in overlap was not found. Evidence from this study implied that the species-specific use of resource may be due primarily to grasshopper adaptive differentiation and to coevolutionary interactions between grasshopper and plant rather than interspecific competition among grasshopper species.