Gradient analysis of the chrogenetic structure of lowland and highland scotch pine populations

Gradients of genetic distances (GGDs) between 26 adjacent cenopopulations of Scotch pine (Pinus sylvestris L.) along the transects through the distinct landscape-ecotopic isolation borders were analyzed graphically. The results made it possible to reveal and quantitatively estimate gradients and borders of gene-pool structural patterns in populations of this species in the central part of Northern Eurasia. In lowland areas, the most distinct borders were found between pine populations growing on dry lands and bogs (Pineta sphagnosa) in the forest zone of the Transural region, as well as between the Arakaragaiskii and Amankaragaiskii island pine forests in the steppe zone (Northern Turgai). In highland areas (the Urals and the Carpathians), the greatest GGDs were observed between low-mountain (about 600 m above sea level) and middle-mountain (850–900 m) populations. Analysis of GGDs is a promising gene-geographic method for determining population borders and studying the chorogenetic structure of species.     

Coupling of the Water Cycle with Patterns of Urban Growth in the Baltimore Metropolitan Region,United States

Regional municipal water plans typically do not recognize complex coupling patterns or that increased withdrawals in one location can result in changes in water availability in others. We investigated the interaction between urban growth and water availability in the Baltimore metropolitan region where urban growth has occurred beyond the reaches of municipal water systems into areas that rely on wells in low‐productivity Piedmont aquifers. We used the urban growth model SLEUTH and the hydrologic model ParFlow.CLM to evaluate this interaction with urban growth scenarios in 2007 and 2030. We found decreasing groundwater availability outside of the municipal water service area. Within the municipal service area we found zones of increasing storage resulting from increased urban growth, where reduced vegetation cover dominated the effect of urbanization on the hydrologic cycle. We also found areas of decreasing storage, where expanding impervious surfaces played a larger role. Although the magnitude of urban growth and change in water availability for the simulation period were generally small, there was considerable spatial heterogeneity of changes in subsurface storage. This suggests that there are locally concentrated areas of groundwater sensitivity to urban growth where water shortages could occur or where drying up of headwater streams would be more likely. The simulation approach presented here could be used to identify early warning indicators of future risk.     

Evaluating Infiltration Requirements for New Development Using Extreme Storm Transposition: A Case Study from Dane County,WI

Changes in land use and extreme rainfall trends can lead to increased flood vulnerability in many parts of the world, especially for urbanized watersheds. This study investigates the performance of existing stormwater management strategies for the Upper Yahara watershed in Dane County, WI to determine whether they are adequate to protect urban and suburban development from an extreme rainfall. Using extreme storm transposition, we model the performance of the stormwater infiltration practices required for new development under current county ordinances. We find during extreme rainfall the volume of post‐development runoff from impervious surfaces from a typical site would increase by over 55% over pre‐development conditions. We recommend the ordinance be strengthened to reduce vulnerability to flooding from future urban expansion and the likely increase in the magnitude and frequency of extreme storms.     

Linking Nitrogen Export to Landscape Heterogeneity: The Role of Infrastructure and Storm Flows in a Mediterranean Urban System

Urban ecosystems are often sources of nonpoint source (NPS) nitrogen (N) pollution to aquatic ecosystems. However, N export from urban watersheds is highly variable. Examples of densely urbanized watersheds are not well studied, and these may have comparatively low export rates. Commonly used metrics of landscape heterogeneity may obscure our ability to discern relationships among landscape characteristics that can explain these lower export rates. We expected that differences not often captured by these metrics in the relative cover of vegetation, structures, and impervious surfaces would better explain observed variation in N export. We examined these relationships during storms in residential watersheds. Contrary to expectations, land cover did not directly predict variation in N or water export. Instead, N export was strongly linked to drainage infrastructure density. Our research highlights the role of fine‐scaled landscape attributes, mainly infrastructure, in explaining patterns of N export from densely urbanized watersheds. Changes to hydrologic flow paths by infrastructure explained more variation in N export than land cover. Our findings support further development of landscape ecological models of urban N export that focus on hydrologic modification by infrastructure rather than traditional landscape measures such as land use, as indicators for evaluating patterns of NPS nitrogen pollution in densely urbanized watersheds.     

城镇化与工业化对能源强度影响的实证研究——基于截面相关和异质性回归系数的非平衡面板数据模型

城镇化、工业化对中国能源强度的影响如何?如何在快速推进城镇化、工业化进程的同时确保节能减排目标的实现?论文以能源强度指标代替传统的能源消费指标来反映能源综合利用效率,并应用考虑截面相关性和异质性回归系数的非平衡面板数据模型,使用共同相关效应组均值(CCEMG)估计方法对中国1978-2014年城镇化、工业化与能源强度之间的关系进行分析。研究结果表明:人均实际GDP增长1%,能源强度将会降低0.412%,工业化水平增长1%,能源强度将会上升0.630%,而由于生产消费等经济活动的增加、高度集中化以及规模经济的综合作用,使得城镇化对能源强度的影响并不确定。联系研究结论,本文提出政策建议:我国应加快产业结构升级,转变经济增长方式;构建绿色制造体系,推进"五化"协同发展;推进绿色、循环、低碳发展的新型城镇化建设,提高城镇化质量,提升我国整体的能源效率,确保节能减排目标的实现,推动经济全面、协调、可持续发展。     

我国人口老龄化加速发展对城市化发展速度的影响

中国的城市化水平在过去的20余年里以年均超过一个百分点的速度提升,然而在城市化主要依靠人口乡城迁移推动的模式下,人口年龄结构老化对城市化发展的影响日渐显现。文章通过年龄移算法描述了乡城人口迁移流动的年龄模式,发现我国农村人口乡城迁移概率随年龄的分布呈现"中间大,两头小"的特征。然后,文章分析了此种年龄模式形成的原因,认为制度是影响乡城迁移年龄模式的决定性因素,制度变迁的缓慢性以及路径依赖决定了短期内我国人口乡城迁移年龄模式的稳定性。基于此,文章预测了人口老龄化对未来中国人口城市化发展的影响,得出的基本结论是,未来中国城市化发展的水平提高将进入一个相对平缓的时期,年度城市化水平的提升将显著低于过去一个时期,对未来10-20年中国城市化发展水平的预期未可过于乐观。针对这一结论,文章建议在未来的城市化过程中应完善社会融入机制和提升城市化质量。     

土地城镇化与人口城镇化的非协调性和互动关系

土地城镇化与人口城镇化失调是我国目前城镇化进程中的一个突出问题。但对各地区土地城镇化与人口城镇化的非协调性进行全面系统分析的研究相对较少。此外,鲜有研究对土地城镇化与人口城镇化之间的互动关系进行实证检验。本研究利用我国2005—2013年间的省级面板数据考察各省级行政区土地城镇化与人口城镇化的非协调性,并通过构建和估计面板向量自回归模型探究土地城镇化与人口城镇化之间的互动关系。研究发现,土地城镇化与人口城镇化的非协调性存在着显著的时空差异。在样本期的后半段(2009—2013年),多个省级行政区人口城镇化滞后于土地城镇化的程度有所加深。根据全样本期内土地城镇化与人口城镇化非协调性的严重程度,可将各省级行政区划分为5个等级。城镇常住人口变化对建成区面积变化具有显著的正向影响;建成区面积变化对城镇常住人口变化的影响方向虽然为正,但该影响不具有统计显著性。从而表明人口城镇化对土地城镇化起到了推动作用,但土地城镇化却未能有效地带动和促进人口城镇化。此外,第二、三产业增加值变化对城镇常住人口变化具有显著的正向影响。研究从改革新增建设用地指标分配方式、抑制城市空间粗放扩张及推动户籍制度改革和基本公共服务均等化等方面提出了促进土地城镇化和人口城镇化协调发展的政策建议。     

“全面放开二孩”政策对中国人口出生率的冲击与趋势探讨

从"单独二孩"政策到"全面放开二孩"政策,政府针对中国人口现实情况不断做出符合社会需求的政策调整,尽管有可能缓解长期以来计划生育政策导致的适龄劳动力短缺及"未富先老"等社会问题,但人口政策调整的长期效果却有待验证。为此,本文运用灰色预测模型和Leslis模型等方法,对"全面放开二孩"生育政策背景下中国未来人口出生率的冲击和波动趋势作出预测,并对"全面放开二孩"政策所带来的对生育率及人口年龄结构影响展开分析,对2016—2050年的出生率、人口总数及人口结构作出预测,最终发现"全面放开二孩"政策会促进人口结构相对优化,但不能从根本上扭转劳动力供求关系失衡和老龄化加剧的趋势。为防止落入人口超低生育率陷阱,适度抑制老龄化快速增长趋势,实现人口与社会经济全面协调发展,必须对现行的生育政策进行完善,短期内,应积极出台配套措施,全面贯彻"全面放开二孩"政策,积极应对老龄化趋势;长期内,应逐步过渡到自主生育政策,形成人口自然生长的均衡发展长效机制。     

The influence of Chinese population policy change on resources and the environment

Universal two-child policy has been implemented since the end of 2015 in China. This policy is anticipated to bring a significant increase in the total population, with profound influences on the resources and environment in the future. This paper analyzes the changing dynamics of urban and rural population, and forecasts urban and rural population from 2016 to 2030 at national and provincial scale using a double log linear regression model. Drawing upon the results of these two predictions, the impact of the population policy change on Chinese resources consumption and environmental pollution are predicted quantitatively. Given the future total population maintains current levels on resources consumption and environmental emission, the additional demand of resources and environment demand for the new population is forecasted and compared against the capacity on supply side. The findings are as follows: after implementing the universal two-child policy, China’s grain, energy consumption, domestic water demand, and pollutant emissions are projected to increase at different rates across provinces. To meet the needs arising from future population growth, food and energy self-sufficiency rate will be significantly reduced in the future, while relying more on imports. Stability of the water supply needs to be improved, especially in Beijing, Henan, Jiangsu, Qinghai, and Sichuan where the gap in future domestic water demand is comparatively larger. Environmental protection and associated governing capability are in urgent need of upgrade not least due to the increasing pressure of pollution.