南昌市城镇空间扩展与景观生态风险的耦合关系

为探究城镇用地空间扩展对景观生态风险的影响,以南昌市为例,运用遥感、GIS及数理统计的方法,借助城镇扩展强度指数研究了南昌市2000—2017年城镇空间扩展的时空变化特征,构建了景观生态风险指数,以3 km×3 km的单元网格进行系统采样,探究城镇扩展下南昌市景观格局的动态变化和景观生态风险,最后基于地理加权回归(GWR)模型,定量分析2000—2017年南昌市城镇空间扩展与景观生态风险之间的耦合关系。结果表明:(1)2000—2017年,南昌市城镇用地增加了247.56 km~2,年均扩展速率达17.75 km~2,其中2000—2005年扩展最快,呈现出剧烈扩展的态势,扩展强度达到0.55。城镇扩展主要沿正北和西北方向扩展,分布在青山湖区、南昌县、新建区等,总体上呈快速扩展趋势;(2)南昌市景观格局以耕地为主,建设用地快速扩张,耕地、林地、草地面积持续减少,土地利用的景观格局指数反映此期间人类活动的干扰程度加剧,景观斑块数量增加,整体破碎度提高。借助地统计分析方法,计算得到南昌市景观生态风险由2000年的0.1354上升至2017年的0.1420,景观生态风险呈逐渐升高的趋势;(3)2000—2017年,城镇用地面积与景观生态风险、城镇空间扩展强度指数和景观生态险变化值之间,都呈现负相关影响,后者相关性在减弱。回归系数的空间分布上,由中部向外逐渐升高,低值位于城镇扩展较快的南昌市区,城镇的快速扩展使城镇用面积大幅增加,景观破碎度、损失度降低,景观生态风险随之降低;高值出现在进贤县、安义县等经济发展缓慢的地区,城镇用地扩展幅度小,扩展边界斑块破碎度大,分离度上升,景观生态风险增加。研究结果为促进城市建设与生态环境保护的相互协调,正确评价人类活动对城市生态系统的影响,以及南昌市的可持续发展和科学管理提供借鉴。     

乌牛早茶园蜡蝉类与其8种天敌空间关系的聚块样方方差分析

为了分析在不同聚块大小条件下,天敌对蜡蝉类Fulgoroidea空间上跟随关系的密切程度、聚集原因和聚集范围,为评价蜡蝉类的天敌优势种和确定样方大小提供科学依据,运用聚块样方方差分析法、灰色关联度法、空间聚集强度指数法、种群聚集均数法和ρ指数法对安徽省合肥市乌牛早茶园不同大小聚块条件下的蜡蝉类及其8种天敌进行分析。蜡蝉类与其8种天敌均方差峰值时聚块样方数的关联度分析结果表明:与蜡蝉类空间上跟随关系密切的前三位天敌依次是茶色新圆蛛Neoscona theisi(0.8010)、草间小黑蛛Erigonidium graminicolum(0.7617)和三突花蟹蛛Misumenops tricuspidatus(0.7613)。在聚块内基本样方数K为1、2、4、8时,随着聚块内基本样方数的增多,聚集分布格局时的扩散系数C不断增大,均匀和随机格局时扩散系数不断减小。聚块内基本样方数K为1、2、4、8时其相互之间的蜡蝉类及其天敌的空间分布聚集程度差异均不显著。蜡蝉类及其天敌的种群聚集均数λ多数情况均大于2,其聚集是该虫本身原因引起的,并且λ的绝对值随着聚块内基本样方数的增加而不断增大。用蜡蝉类不同大小聚块的ρ指数判断个体群聚集时的最小范围是聚块中有4个基本样方,即本文的16 m~2。为该虫抽样时确定样方大小提供了科学依据。聚块样方方差分析法是分析害虫与天敌空间关系的一种简便而又实用的方法。     

Siberian spruce tree ring anatomy: imprint of development processes and their high-temporal environmental regulation

Wood anatomy was offered as spatiotemporal proxy record for tracheid differentiation kinetics due to its advantages in terms of much longer cover period and less demanding measurements. In this study, external and internal regulation of earlywood-to-latewood transition and properties of latewood of Picea obovata Ledeb were considered. The values and interrelations between cell number, tree ring width, maximal and mean radial cell diameter, maximal cell wall thickness and position of the transition to thick-walled tracheids were investigated within site and along the altitudinal gradient. Correlations with moving 21-day climatic series were used to estimate high-resolutional external influences. Relationships between tree ring traits are spatially stable and close within one stage of differentiation and between cells production and expansion. Relationships between sites differ in upper and lower parts of the gradient. Most of traits respond to the primary limiting factors near summer solstice; however, maximal cell wall thickness responds positively to the temperatures at the + 10 °C threshold. Altitudinal anatomical patterns revealed interaction of intrinsic and external factors in the regulation of tracheid differentiation. Timing of climatic response highlighted role of photoperiod as a trigger in the earlywood-to-latewood transition, and crucial role of the growth season ending for latewood development.     

Moderate grazing promotes the root biomass in Kobresia meadow on the northern Qinghai–Tibet Plateau

Grazing is an important modulator of both plant productivity and biodiversity in grassland community, yet how to determine a suitable grazing intensity in alpine grassland is still controversy. Here, we explore the effects of different grazing intensities on plant biomass and species composition, both at community level and functional group level, and examines the productivity–species richness relationship under four grazing patterns: no grazing (CK), light grazing (LG), moderate grazing, (MG) and heavy grazing (HG), attempt to determine a suitable grazing intensity in alpine grassland. The results were as follows. The total aboveground biomass (AGB) reduced with increasing grazing intensity, and the response of plant functional groups was different. AGB of both sedges and legumes increased from MG to HG, while the AGB of forbs reduced sharply and the grass AGB remained steady. There was a significant positive relationship between productivity and species richness both at community level and functional group level. In contrast, the belowground biomass (BGB) showed a unimodal relationship from CK to HG, peaking in MG (8,297.72 ± 621.29 g/m²). Interestingly, the grassland community tends to allocate more root biomass to the upper soil layer under increasing grazing intensities. Our results suggesting that moderate levels of disturbance may be the optimal grassland management strategy for alpine meadow in terms of root production.     

New insights into the dispersion history and adaptive evolution of taxon Aegilops tauschii in China

Aegilops tauschii, the wild progenitor of wheat D-genome and a valuable germplasm for wheat improvement, has a wide natural distribution from eastern Turkey to China. However, the phylogenetic relationship and dispersion history of Ae. tauschii in China has not been scientifically clarified. In this study, we genotyped 208 accessions (with 104 in China) using ddRAD sequencing and 55K SNP array, and classified the population into six sublineages. Three possible spreading routes or events were identified, resulting in specific distribution patterns, with four sublineages found in Xinjiang, one in Qinghai, two in Shaanxi and one in Henan. We also established the correlation of SNP-based, karyotype-based and spike-morphology-based techniques to demonstrate the internal classification of Ae. tauschii, and developed consensus dataset with 1245 putative accessions by merging data previously published. Our analysis suggested that eight inter-lineage accessions could be assigned to the putative Lineage 3 and these accessions would help to conserve the genetic diversity of the species. By developing the consensus phylogenetic relationships of Ae. tauschii, our work validated the hypothesis on the dispersal history of Ae. tauschii in China, and contributed to the efficient and comprehensive germplasm-mining of the species.     

Effect of daily salinity fluctuation on the intraspecific interactions of a euhalophyte (Suaeda salsa) along a salinity gradient

每日盐度波动对真盐生植物盐地碱蓬种内相互作用沿盐度梯度的影响 土壤盐度的异质性是河口潮间带的一个突出的环境特征,影响植物的生长和盐沼中生物相互作用的转变。本研究旨在探究盐度梯度和盐度波动对一种真盐生植物的种内相互作用的交互影响。     

Synthesis and structure–activity relationship of 16,17-modified gibberellin derivatives

Gibberellins (GAs) are a group of diterpenoid plant hormones that control plant growth and development at various stages. Biologically active GAs share the common structures of a 3β-hydroxy group, a carboxy group at C-6, and a γ-lactone between C-4 and C-10. Hydroxylation at C-2β is a major deactivation step in many plant species, and hydroxylation at C-13 has been shown to weaken the binding affinity of GAs to their receptor proteins. In rice, bioactive GA₄ has also been shown to be deactivated through 16α,17-epoxidation. Moreover, 16,17-dihydro-16α,17-dihydroxy GA₄ has been identified as an aglycon of its glucoside from rice. However, our knowledge on the biological activity of 16,17-epoxidized GAs is currently limited to 16,17-dihydro-16α,17-epoxy GA₄. Moreover, the bioactivity of 16,17-dihydro-16α,17-dihydroxy GA₄ remains unknown. Here, we synthesized 16,17-epoxidized or dihydroxylated GA derivatives and performed a structure–activity relationship study using rice seedlings. 16,17-Epoxidation of bioactive GA₁ and GA₄ reduced their activity to promote elongation of rice leaf sheaths. Moreover, 16,17-dihydroxylation significantly decreased the activities of 16,17-dihydro-16α,17-epoxy GAs. These results suggest that GAs are deactivated in a stepwise manner via 16,17-epoxidation and hydrolysis of these epoxy groups.     

Robustness of Taylor’s law under spatial hierarchical groupings of forest tree samples

Testing how well Taylor's law (TL) describes spatial variation of the population density of a species requires grouping sampling areas (patches of habitat) into blocks so that a mean and a variance of the population density can be calculated over the patches in each block. The relationship between specific groupings and TL remains largely unknown. Here, using tree counts from a deciduous forest, we studied the effect of four biological methods of grouping sampling areas into blocks on the form and parameters of TL. Regardless of the method of grouping, the species-specific basal area densities obeyed TL, and the estimated slopes were not significantly different from one grouping method to another. Surprisingly, TL remained valid when four kinds of randomizations were performed to the biological groupings and tree census. These randomizations randomly assigned sampling areas to blocks, and/or randomized the species composition within or across sampling areas. We found that the form of TL was robust to different grouping methods and species randomizations, but its parameter values depended significantly on species compositions at sampling areas.