鄂尔多斯市土地利用生态安全格局构建

合理构建区域土地利用生态安全格局来实施管理对策和改善区域生态安全水平,已经成为区域生态环境保护的新需求。以位于中国北方农牧交错区的鄂尔多斯市为研究区,基于自然地理数据、社会经济统计数据、土地利用/覆被数据等,借助多目标优化模型和GIS空间分析技术,构建了鄂尔多斯市土地利用生态安全格局,结果表明:(1)不适宜性耕地所占比重较大,林地和草地分布比较合理,适宜的未利用地面积所占比重较大,后备土地资源丰富;(2)多目标优化结果显示,耕地、林地、水域和建设用地面积呈现增加的趋势;草地面积基本保持不变;未利用地面积大幅度下降;(3)土地利用生态安全格局显示,耕地面积增加,主要分布在水分条件较好的河流、湖泊和水库等的周边地区以及城镇和乡村居民点周围;林地面积大幅度增加,主要分布在达拉特旗北部和准格尔旗东部;草地略有增加,广泛分布于库布齐沙漠和毛乌素沙地以外的地区;建设用地增加面积主要来自于重点发展城镇的扩展和规划的重点矿产资源开采区;未利用地大幅度减少,主要集中在杭锦旗境内的库布齐沙漠以及乌审旗和鄂托克旗境内的毛乌素沙地。研究结果对鄂尔多斯市土地资源管理和生态安全建设具有重要指导意义。     

秦岭地区林地与草地景观格局变化及其驱动因素

以1980—2015年土地利用数据集为数据源,利用GIS空间分析、景观格局指数和主成分分析法,研究了秦岭地区林地与草地景观格局时空变化特征,并探讨其演化的驱动因素。结果表明:(1)林地和草地是秦岭地区主要景观类型,约占研究区总面积的72%,其中有林地为优势景观类型,其次为高覆盖度草地和中覆盖度草地,其他林地和低覆盖度草地分布面积相对较少。(2)35年来,林地和草地总面积整体呈减少趋势,净减少了309.44km~2,其中草地减少占主导地位;空间变化上,损失严重的区域主要分布于以西安市为中心的周边区域,主要向建设用地和耕地转移。(3)林地和草地景观破碎化程度逐渐增加,连通性降低,景观异质性增强且景观形状更为复杂,草地较林地变化明显;空间分布上,林地和草地景观格局指数空间分布特征明显,在地形因子作用下呈现一定的地形梯度性,尤其与海拔的相关性最好。(4)人为活动干扰是影响秦岭地区林地和草地景观格局变化的主要驱动因素,气候因素次之,同时国家宏观政策起着重要的导向作用。减缓人为活动对秦岭地区的过度影响,维护林地和草地的平衡性及完整性,是实现该区生态系统科学管理和资源的可持续利用的关键。     

A rapid ecological network assessment tool and its use in locating habitat extension areas in a changing landscape

An understanding of the ecological systems which dictate landscape form and function must be achieved in order to objectively view development led landscape ecological change. Habitat fragmentation, loss and isolation of habitat patches and reduced connectivity are having a significant detrimental effect on the way our landscapes function. A conservation planning tool which considers these issues in tandem with planned landscape level change, whilst incorporating species and habitat specific details, is necessary if we are to ameliorate the ecological impact of built development.A landscape scale modelling approach was developed for a case study area in the South Midlands of the UK to investigate spatial targeting of habitat extension areas. Habitat extension opportunities currently arise as a consequence of existing planning regulations and conditions and are likely to increase as the concept of habitat “banking” is embraced. Ecological networks and ecoprofiles were employed to guide the location of these extension areas via an examination of the landscape ecology effects of area composition, size and location. The ability of extension areas to contribute to landscape functionality was determined spatially. Habitat extension areas identified by the approach increased the existing ecological network size by a factor of over 2.7:1 and were able to deliver the majority of habitat creation targets set out in regional Biodiversity Action Plans (BAPs). 100% of wetland, unimproved grassland and broadleaf and mixed woodland creation targets were met, whilst 75% of the lowland heath target could be achieved. Semi-natural habitat mosaic areas of over 3700 ha which incorporated habitat of more than one type were identified, with such areas determined to be of importance in achieving landscape improvements for a wide range of species. We conclude that rapid assessment tools such as that employed in this research will have increased utility in conservation planning as the British landscape continues to experience both sustained and elevated levels of built development pressure.     

Local perceptions of grassland change and priorities for conservation of natural resources of Banni, Gujarat, India

This study was conducted in the Banni region of the Gujarat State, India, which is located in the western-most end of the country. The main objective was to investigate the local perceptions of grassland change, regeneration potentiality, socio-economic status and fac-tors that cause degradation of the vegetation resources in Banni. Participatory Rural Appraisal (PRA) was employed to generate the socio-economic profile of interviewed villages or hamlets. Information on vegetation deteriora-tion and changes in species composition significant for sustainable management of grassland was obtained through interviews with 51 elderly maldharies (pastoral-ists) and local inhabitants living in 31 villages in Banni. Local people had observed a change in the local surrounding habitats from grassland to woodland (domi-nated by Prosopis juliflora, locally called Gando Bavar) during their lifetime and considered it primarily a result of frequent intensive drought, constructed dams on flooding rivers in Banni, and declining rainfall. The socio-economic survey showed that the Banni communities are highly dependent on the natural grassland for various purposes. In particular, nine woody species were useful for construction of the traditional house called Bhunga, four for medicine and 22 for livestock fodder. Highly preferred and declining species were characteristically large wild thorny trees with edible fruits, viz. Acacia nilotica subsp, indica (Bavar), Prosopis cineraria (Kandho), and Salvadora persica (Kharijar). Some of the locally highly preferred grass species were also considered to be declining in the local environs; they included Dichanthium annulatum (Jinjvo), Cenchrus ciliaris (Dbaman), Sporobolus fertilis (Khevai) and Chloris barbata (Siyarpuchha). The study furthermore identified a close coincidence between the interest in conserving tree species diversity nearby the natural water resources and priorities of local inhabitants, which included protection of plenty of large trees (including many fruit tress, viz. Mangifera indicia (Ambo), Cordia dichotoma (Gunda)and Pithecellobium dulce (Gora-samli)), improvement of woody fodder tree and grass species regeneration, and reduction of overgrazing pres-sure on grasslands. Focusing management strategies on increasing the populations of such declining and highly preferred tree and grass species, by active restoration and grazing policies, would enhance the natural resource value and biodiversity wealth considerably and thereby the quality of life for the local inhabitants. The implications of the results are discussed and recommendations are suggested for conservation, management, and sustainable utilization of the fragile grassland ecosystem of the Banni region.     

基于MODIS数据的中国三种主要土地类型变化的空间特征分析

人类活动使得土地利用和植被覆盖发生了巨大变化,直接影响着全球气候。本研究通过从2000—2013年对中国三种主要土地利用类型的NDVI变化特征进行了分析,结果表明:(1)14年来,中国三种主要土地利用类型NDVI平均值均有增强的趋势。(2)三种主要土地利用类型中除耕地中的水田,林地中的有林地和草地中的高覆盖草地增长速率不显著外,其他土地类型增长速率均显著。(3)三种土地利用类型均以改善面积大于退化面积,耕地中改善面积占总耕地的64.21%,退化的区域占18.50%;林地改善的区域占总林地的54.21%,退化的区域占20.13%;草地改善的区域占55.53%,退化的区域占18.23%。三种土地类型均有所改善且改善明显的区域主要集中在甘肃以南,陕西以北和东北部分地区。     

Tropical dry woodland loss occurs disproportionately in areas of highest conservation value

Tropical and subtropical dry woodlands are rich in biodiversity and carbon. Yet, many of these woodlands are under high deforestation pressure and remain weakly protected. Here, we assessed how deforestation dynamics relate to areas of woodland protection and to conservation priorities across the world's tropical dry woodlands. Specifically, we characterized different types of deforestation frontier from 2000 to 2020 and compared them to protected areas (PAs), Indigenous Peoples' lands and conservation areas for biodiversity, carbon and water. We found that global conservation priorities were always overrepresented in tropical dry woodlands compared to the rest of the globe (between 4% and 96% more than expected, depending on the type of conservation priority). Moreover, about 41% of all dry woodlands were characterized as deforestation frontiers, and these frontiers have been falling disproportionately in areas with important regional (i.e. tropical dry woodland) conservation assets. While deforestation frontiers were identified within all tropical dry woodland classes of woodland protection, they were lower than the average within protected areas coinciding with Indigenous Peoples' lands (23%), and within other PAs (28%). However, within PAs, deforestation frontiers have also been disproportionately affecting regional conservation assets. Many emerging deforestation frontiers were identified outside but close to PAs, highlighting a growing threat that the conserved areas of dry woodland will become isolated. Understanding how deforestation frontiers coincide with major types of current woodland protection can help target context-specific conservation policies and interventions to tropical dry woodland conservation assets (e.g. PAs in which deforestation is rampant require stronger enforcement, inactive deforestation frontiers could benefit from restoration). Our analyses also identify recurring patterns that can be used to test the transferability of governance approaches and promote learning across social–ecological contexts.     

1980—2018年祁连山南坡土地利用变化及其驱动力

祁连山是我国第一阶梯和第二阶梯的分界线,生态环境脆弱,对过渡地带土地利用变化及其驱动力研究具有重要的生态意义。本研究以祁连山南坡为研究区,基于1980—2018年遥感影像数据,运用空间自相关分析法、ArcGIS空间分析方法和主成分分析法分析了土地利用的时空变化特征及其驱动力。结果表明: 1980—2018年,草地是研究区土地利用类型的主体,建设用地所占比重最小,水域、草地表现为下降趋势,未利用土地、建设用地和耕地均呈现出增长态势,林地变化较小。不同地类单一土地利用动态度从大到小依次为:建设用地＞水域＞耕地＞未利用土地＞林地＞草地,综合土地利用动态度为0.9%。不同土地利用类型空间分布表现出空间集聚性特征。耕地增加的区域和林地、草地减少的区域主要分布在门源县城所处大通河谷地西北侧,天峻县东北部大通河上游地区存在工矿建设用地占用草地的现象。土地利用变化驱动力主要为人口数量、科技、城市化、经济发展水平和政策。本研究结果可为政府合理规划和利用土地资源提供依据,对祁连山南坡生态环境保护和社会经济可持续发展具有重大意义。     

Ecohydrological impacts of woody-plant encroachment: seasonal patterns of water and carbon dioxide exchange within a semiarid riparian environment

Across many dryland regions, historically grass‐dominated ecosystems have been encroached upon by woody‐plant species. In this paper, we compare ecosystem water and carbon dioxide (CO₂) fluxes over a grassland, a grassland–shrubland mosaic, and a fully developed woodland to evaluate potential consequences of woody‐plant encroachment on important ecosystem processes. All three sites were located in the riparian corridor of a river in the southwest US. As such, plants in these ecosystems may have access to moisture at the capillary fringe of the near‐surface water table. Using fluxes measured by eddy covariance in 2003 we found that ecosystem evapotranspiration (ET) and net ecosystem exchange of carbon dioxide (NEE) increased with increasing woody‐plant dominance. Growing season ET totals were 407, 450, and 639 mm in the grassland, shrubland, and woodland, respectively, and in excess of precipitation by 227, 265, and 473 mm. This excess was derived from groundwater, especially during the extremely dry premonsoon period when this was the only source of moisture available to plants. Access to groundwater by the deep‐rooted woody plants apparently decouples ecosystem ET from gross ecosystem production (GEP) with respect to precipitation. Compared with grasses, the woody plants were better able to use the stable groundwater source and had an increased net CO₂ gain during the dry periods. This enhanced plant activity resulted in substantial accumulation of leaf litter on the soil surface that, during rainy periods, may lead to high microbial respiration rates that offset these photosynthetic fluxes. March–December (primary growing season) totals of NEE were ?63, ?212, and ?233 g C m^?2 in the grassland, shrubland, and woodland, respectively. Thus, there was a greater disparity between ecosystem water use and the strength of the CO₂ sink as woody plants increased across the encroachment gradient. Despite a higher density of woody plants and a greater plant productivity in the woodland than in the shrubland, the woodland produced a larger respiration response to rainfall that largely offset its higher photosynthetic potential. These data suggest that the capacity for woody plants to exploit water resources in riparian areas results in enhanced carbon sequestration at the expense of increased groundwater use under current climate conditions, but the potential does not scale specifically as a function of woody‐plant abundance. These results highlight the important roles of water sources and ecosystem structure on the control of water and carbon balances in dryland areas.     

Are protected areas maintaining bird diversity?

Evaluating the effectiveness of protected areas for sustaining biodiversity is crucial to achieving conservation outcomes. While studies of effectiveness have improved our understanding of protected‐area design and management, few investigations (< 5%) have quantified the ecological performance of reserves for conserving species. Here, we present an empirical evaluation of protected‐area effectiveness using long‐term measures of a vulnerable assemblage of species. We compare forest and woodland bird diversity in the Australian Capital Territory over 11 yr on protected and unprotected areas located in temperate eucalypt woodland and matched by key habitat attributes. We examine separately the response of birds to protected areas established prior to 1995 and after 1995 when fundamental changes were made to regional conservation policy. Bird diversity was measured in richness, occurrence of vulnerable species, individual species trajectories and functional trait groups. We found that protected areas were effective in maintaining woody vegetation cover in the study region, but were less effective in the protection of the target bird species assemblage. Protected areas were less species rich than unprotected areas, with significant declines in richness across sites protected prior to 1995. Small, specialised and vulnerable species showed stronger associations with unprotected areas than protected areas. Our findings indicate that recently established reserves (post‐1995) are performing similarly to unprotected woodland areas in terms of maintaining woodland bird diversity, and that both of these areas are more effective in the conservation of woodland bird populations than reserves established prior to 1995. We demonstrate that the conservation value of protected areas is strongly influenced by the physical characteristics, as well as the landscape context, of a given reserve and can diminish with changes in surrounding land use over time. Both protected areas and off‐reserve conservation schemes have important roles to play in securing species populations.     

Local perceptions of grassland change and priorities for conservation of natural resources of Banni, Gujarat, India

This study was conducted in the Banni region of the Gujarat State, India, which is located in the western-most end of the country. The main objective was to investigate the local perceptions of grassland change, regeneration potentiality, socio-economic status and factors that cause degradation of the vegetation resources in Banni. Participatory Rural Appraisal (PRA) was employed to generate the socio-economic profile of interviewed villages or hamlets. Information on vegetation deterioration and changes in species composition significant for sustainable management of grassland was obtained through interviews with 51 elderly maldharies (pastoralists) and local inhabitants living in 31 villages in Banni. Local people had observed a change in the local surrounding habitats from grassland to woodland (dominated by Prosopis juliflora, locally called Gando Bavar) during their lifetime and considered it primarily a result of frequent intensive drought, constructed dams on flooding rivers in Banni, and declining rainfall. The socio-economic survey showed that the Banni communities are highly dependent on the natural grassland for various purposes. In particular, nine woody species were useful for construction of the traditional house called Bhunga, four for medicine and 22 for livestock fodder. Highly preferred and declining species were characteristically large wild thorny trees with edible fruits, viz. Acacia nilotica subsp. indica (Bavar), Prosopis cineraria (Kandho), and Salvadora persica (Kharijar). Some of the locally highly preferred grass species were also considered to be declining in the local environs; they included Dichanthium annulatum (Jinjvo), Cenchrus ciliaris (Dhaman), Sporobolus fertilis (Khevai) and Chloris barbata (Siyarpuchha). The study furthermore identified a close coincidence between the interest in conserving tree species diversity nearby the natural water resources and priorities of local inhabitants, which included protection of plenty of large trees (including many fruit tress, viz. Mangifera indicia (Ambo), Cordia dichotoma (Gunda)and Pithecellobium dulce (Gorasamli)), improvement of woody fodder tree and grass species regeneration, and reduction of overgrazing pressure on grasslands. Focusing management strategies on increasing the populations of such declining and highly preferred tree and grass species, by active restoration and grazing policies, would enhance the natural resource value and biodiversity wealth considerably and thereby the quality of life for the local inhabitants. The implications of the results are discussed and recommendations are suggested for conservation, management, and sustainable utilization of the fragile grassland ecosystem of the Banni region.     

Identifying mismatches between conservation area networks and vulnerable populations using spatial randomization

Grassland birds are among the most globally threatened bird groups due to substantial degradation of native grassland habitats. However, the current network of grassland conservation areas may not be adequate for halting population declines and biodiversity loss. Here, we evaluate a network of grassland conservation areas within Wisconsin, U.S.A., that includes both large Focal Landscapes and smaller targeted conservation areas (e.g., Grassland Bird Conservation Areas, GBCAs) established within them. To date, this conservation network has lacked baseline information to assess whether the current placement of these conservation areas aligns with population hot spots of grassland‐dependent taxa. To do so, we fitted data from thousands of avian point‐count surveys collected by citizen scientists as part of Wisconsin''s Breeding Bird Atlas II with multinomial N‐mixture models to estimate habitat–abundance relationships, develop spatially explicit predictions of abundance, and establish ecological baselines within priority conservation areas for a suite of obligate grassland songbirds. Next, we developed spatial randomization tests to evaluate the placement of this conservation network relative to randomly placed conservation networks. Overall, less than 20% of species statewide populations were found within the current grassland conservation network. Spatial tests demonstrated a high representation of this bird assemblage within the entire conservation network, but with a bias toward birds associated with moderately tallgrasses relative to those associated with shortgrasses or tallgrasses. We also found that GBCAs had higher representation at Focal Landscape rather than statewide scales. Here, we demonstrated how combining citizen science data with hierarchical modeling is a powerful tool for estimating ecological baselines and conducting large‐scale evaluations of an existing conservation network for multiple grassland birds. Our flexible spatial randomization approach offers the potential to be applied to other protected area networks and serves as a complementary tool for conservation planning efforts globally.     

The missing wetlands: using local ecological knowledge to find cryptic ecosystems

Small, temporally dynamic, biologically diverse isolated wetlands are among the most imperiled ecosystems, yet their conservation is hindered by lack of protective legislation and mapping. As part of an effort to better understand isolated wetland ecology in an area undergoing dramatic land use change, we mapped isolated wetlands in South Carolina’s Piedmont and Blue Ridge regions using remote sensing and local ecological knowledge (LEK). Remote detection of isolated wetlands was limited by digital resource resolution, topography, and wetland size. LEK was the most useful tool for locating small isolated wetlands. We sampled 10% of the study area using LEK and discovered 44 wetlands with “isolated” characteristics, none of which had been identified by remote sensing. Only 8 of 44 wetlands found through LEK could be identified using remote sensing after their discovery. LEK fills a gap in cryptic ecosystem detection when adequate remotely sensed data are not available. Though effective, using LEK is neither as rapid nor as repeatable as remote sensing. We suggest a two-pronged approach for finding cryptic ecosystems: remote sensing coupled with LEK where data resolution is inadequate. For remote detection of isolated wetlands, we suggest a minimum resolution of 0.33 m for Color Infrared, leaf-off, high-water photography. Despite great advances in remote sensing, data are not uniformly available worldwide and LEK may serve as an effective tool for locating cryptic resources for biodiversity conservation. Mapping cryptic resources will allow for more accurate resource and biodiversity conservation planning under current and future climate scenarios.     

Soil nitrogen and carbon heterogeneity in woodlands and grasslands: contrasts between temperate and tropical regions

Aim  Soil resource heterogeneity is linked to several ecological processes including invasion of woody species into grasslands. Studies from the temperate zone have demonstrated greater soil heterogeneity beneath woody vegetation than beneath grasslands. Woody species have a more widespread and coarser root system than herbaceous species, and may have a competitive advantage in relatively heterogeneous soils. We tested the global generality of greater soil heterogeneity beneath woody vegetation.
Location  Global.
Methods  We used data from published literature for soil nitrogen and carbon heterogeneity from paired woodland and grassland sites around the world.
Results  Woodland and grassland soil heterogeneities from paired observations were strongly correlated. There was, however, significant geographical variability in the relationship. Soils were more heterogeneous in woodlands than grasslands in temperate areas, but the opposite was true for tropical habitats. Grassland soils were more heterogeneous at lower than higher latitudes. Woodland soil heterogeneity did not vary with latitude.
Main conclusions  The previously described high soil heterogeneity in woody vegetation compared to grasslands holds only for temperate regions. Consequently, the relationship between soil resource heterogeneity and vegetation type is dependent on the study region. Macroecological studies should test the generality of relationships between soil and vegetation at the global scale.     

国家公园优先保护区域识别——以浙江丽水为例

如何充分利用有限的资源更好地保护生物多样性一直都是保护地管理所追求的目标。整合保护对象、优化保护地的空间布局、有效识别国家公园优先保护区域是当前中国国家公园体制建设的主要任务。本研究以浙江丽水为例,采用生态模型评估了该区域关键生态系统服务(固碳释氧、水文调节、水资源、土壤保持)的空间分布格局,同时运用MaxEnt模型模拟了37种濒危物种适宜栖息地分布的空间格局。在此基础上,将关键生态系统服务和濒危物种作为保护对象,通过系统保护规划模型MARXAN,在0.4 km×0.4 km规划网格上计算丽水各规划单元的生态保护不可替代性指数,并结合当地管理需求,综合识别了国家公园优先保护区域。结果表明: 2005—2015年间,研究区生态系统固碳量为0.05 kg C·m^-2·a^-1,释氧量为0.13 kg O₂·m^-2·a^-1,水文调节量为83.25亿m³·a^-1,水资源量为803 mm·a^-1,土壤保持量为95.53 t·hm^-2·a^-1;不同土地利用类型的不可替代性指数显著不同,森林为50～100,河流和水库为60～100,园地为30～50,耕地为15～35,住宅用地为0～25,优先保护区域占研究区面积的11.8%。本研究结合生物多样性和生态系统服务的系统保护规划思路,能够为保护地网络优化布局和国家公园优先保护区域的确定提供有用的框架和技术支撑,有助于提升我国建设以国家公园为主体的自然保护体系的整体有效性。     

The uses,local perceptions and ecological status of 16 woody species of Gadumire Sub-county,Uganda

Populations of naturally growing woody species valued for their contribution to human livelihoods are threatened with extinction. Most at risk are those existing in human inhabited areas outside protected areas that are subjected to high population pressure and to a variety of land use demands. The sustainable utilization of these plants requires as a first step knowledge, including, their ecology and an understanding of the peoples attitudes to conservation. This study was conducted to generate data that would contribute to the management for conservation and sustainable use of woody resources. The study objectives were to document local knowledge covering the uses, status, threats, habitats and management solutions of woody species; determine the abundances, distribution and population structure of 16 woody species, and assess the conservation status of the selected woody species. The study was carried out in Gadumire Sub-county, Uganda using both an ethnobotanical approach and quantitative ecological methods. The species are multipurpose and are exploited to satisfy different subsistence needs. They had population densities ranging between 3.6 and 2630 individuals ha⁻¹, and distributions ranging between 0.3 and 39.5%. The species Acacia hockii, Albizia zygia, Acacia seyal, Markhamia lutea and Albizia coriaria had a good conservation status. The remainder of the species appear threatened either because they had low densities, frequencies or less steep size class distribution (SCD) slopes. Securidaca longipedunculata Fres. was not encountered at all in the study plots. Community perceptions collaborated the measured population dynamics. The major threats believed to be impacting the species by the community are the growing human population, expanding crop agriculture, poor harvesting methods and over-exploitation of the species.     

中小尺度生态用地规划方法

生态用地指以发挥自然生态功能为主,具有重要生态系统服务功能或生态环境脆弱、生态敏感性较高的土地。它是土地利用与生态建设的直接联系,关系区域生态系统的稳定性和安全性。生态用地的研究有利于建立合理的土地利用系统,完善区域生态安全格局,促进经济社会发展与生态环境相协调。在不同尺度下,生态用地的内涵、性质、主导功能以及规划方法都有所不同,结合我国土地利用规划及城市规划的层次划分,选取市域和中心城区为研究范围,其中市域为中尺度代表范围,中心城区为小尺度代表范围,分别分析了两种尺度下生态用地的内涵及区别,提出了相应的规划方法及侧重点。定量规划方面,中心城区生态用地主要结合国家相关法规、规定、政策等确定;而市域生态用地采取借鉴法、土地利用结构数量优化方法以及情景分析三种方法综合确定。空间规划方面,城区生态用地采取分类规划方法,分别对点线面三类生态用地进行提取,主要步骤为辨识重要生态源,构建面状生态用地;结合水体和交通缓冲区,构建线状生态用地;提取关键节点,构建点状生态用地;生态用地分类。市域生态用地则采取综合规划方法,主要步骤为提取特殊生态用地、基于生态用地结构功能和生态敏感性等的生态建设重要性评价、生态用地空间提取及分类。     

An Ecological Classification of British Butterflies: Ecological Attributes and Biotope Occupancy

We classify British butterflies using 136 non-biotope associated binary state ecological attributes describing all stages of butterfly life-cycles. Using cluster analysis we identify two groups of woodland species, a group occurring in tall open grassland, another group associated with short sward herb-rich grassland, and a ruderal group. Principal Component and Factor analyses (4 factor solution) are used to identify ecological attributes that determine species groupings. No single attribute or attribute type is responsible for the groupings, which are also insensitive to hostplant type. We use presence/absence data from Butterfly Monitoring Scheme transects in southern Britain to test our classification. On the basis of adult occurrences, similarities within two of the four groups identified from PCA are greater than between groups. Exclusivity between species pairs is also more frequent between groups than within groups. Species' ranges, distributions, biotope range, dispersal ability and recent decline in abundances differ between groups identified by their factor loadings. Ruderal species have large ranges, abundances, extensive mobilities and show little recent decline. The group associated with short sward grassland have the lowest mobilities, and the smallest distributions within their geographic ranges. True woodland species have the smallest biotope range, and the species associated with open areas have the second smallest decline in their distributions. Our ecological classification identifies characteristics of species that determine their habitat requirements and could serve to predict the response of species groups to environmental change on the basis of their ecological attributes. Our method may be of use in identifying the relative importance of ecological attributes of less-well studied taxa and be applicable in less well known geographic regions.     

Implications of afforestation for bird communities: the importance of preceding land-use type

Afforestation of open habitats is one of the principal land-use changes underway in Europe and elsewhere in the world at present, and it can have a considerable impact on local biodiversity. The sustainable expansion of global forest plantations requires an understanding of the factors that determine the ecological impacts of afforestation. This study set out to determine the importance of preceding land-use type in determining the outcomes of afforestation for bird communities. Paired comparisons of 5-year-old exotic conifer plantations and matching non-forested sites were studied in areas of low (peatland), intermediate (wet grassland) and high (improved grassland) management intensity. Afforestation resulted in an overall increase in total bird density in all three habitat types. The effects of forest planting on bird conservation were found to be positively related to prior management intensity at the site. The density of bird species of conservation concern increased in response to the planting of intensively managed grassland sites, but decreased in response to afforestation of peatlands and of grasslands under intermediate management intensity. This study shows that plantation forests can, in some contexts, offer opportunities for bird conservation, and the findings highlight the trade-offs that are an integral part of land-use change. Therefore, where afforestation planning includes consideration of its impact on bird communities, planting should take place predominantly on sites of low biodiversity value, such as agriculturally improved grasslands. Furthermore, the preservation of sites of high conservation value within areas of afforestation would confer advantages on bird communities.     

城市近郊型乡镇农业生态经济系统生态潜力及产业空间布局——以延安市河庄坪镇为例

生态脆弱区抗干扰能力弱,明确其系统的生态潜力,在潜力的基础上开发利用资源对区域的可持续发展具有重要的意义。研究基于生态系统服务价值视角,尝试测度农业生态经济系统生态潜力,同时以三产融合典型代表乡镇为研究对象,对其农业生态经济系统生态潜力和主导产业进行时空分析,最后对生态系统加以功能分区。结果显示：（1）气体调节、气候调节、水源涵养和土壤形成与保护是生态系统提供的主要服务功能。随退耕还林工程实施,林地面积的增加使生态系统服务价值量随之上升,在空间上呈现"中间低两翼高"的格局。（2）农业生态经济系统生态潜力受服务价值与资源开发过程影响,与生态系统服务价值在空间上相对一致,呈现出"两翼高中间低,北高南低"的分布格局,其中,退耕还林工程的推进直接导致林地的生态潜力增加,耕地的生态潜力减少。（3）研究区在退耕过程中形成以大棚种植为主的设施农业、以农林特色销售为主的商品型种植农业,以山地苹果为主的林果产业以及以酒店商贸为主的服务行业。并随城镇一体化的推进,主导产业呈现出由传统粗放型大田种植向集约型设施农业方向发展。在空间上形成了以镇区分布为主的第三产业、依托拐沟坡地的林果产业和沿川道展开的设施农业的产业布局。（4）基于生态系统服务价值,研究区农业生态经济系统功能区划分为城镇生态环境维护区（第Ⅰ类型区）、农业生态保护区（第Ⅱ类型区）、生态安全屏障区（第Ⅲ类区）3个区域。     

Woodland expansion in South African grassy biomes based on satellite observations (1990–2013): general patterns and potential drivers

Increases in woody plant cover in savanna grassland environments have been reported on globally for over 50 years and are generally perceived as a threat to rangeland productivity and biodiversity. Despite this, few attempts have been made to estimate the extent of woodland increase at a national scale, principally due to technical constraints such as availability of appropriate remote sensing products. In this study, we aimed to measure the extent to which woodlands have replaced grasslands in South Africa's grassy biomes. We use multiseason Landsat data in conjunction with satellite L‐band radar backscatter data to estimate the extent of woodlands and grasslands in 1990 and 2013. The method employed allows for a unique, nationwide measurement of transitions between grassland and woodland classes in recent decades. We estimate that during the 23‐year study period, woodlands have replaced grasslands over ~57 000 km² and conversely that grasslands have replaced woodlands over ~30 000 km², a net increase in the extent of woodland of ~27 000 km² and an annual increase of 0.22%. The changes varied markedly across the country; areas receiving over 500 mm mean annual precipitation showed higher rates of woodland expansion than regions receiving <500 mm (0.31% yr^?1 and 0.11% yr^?1, respectively). Protected areas with elephants showed clear loss of woodlands (?0.43% yr^?1), while commercial rangelands and traditional rangelands showed increases in woodland extent (>0.19% yr^?1). The woodland change map presented here provides a unique opportunity to test the numerous models of woody plant encroachment at a national/regional scale.