Evaluation of Inner Mongolia Wind Erosion Prevention Service based on Land Use and the RWEQ Model

Inner Mongolia is the important ecological barrier zone in northern China, which plays an important role in the prevention and control of wind in the regional ecosystem. Based on the Revised Wind Erosion Equation (RWEQ) model and the cost-recovery method, this study simulated the wind erosion prevention service (WEPS) in Inner Mongolia in 2010 and 2015, investigated the spatial pattern of material and monetary value of WEPS, and analyzed the differences among various cities and various ecosystems. The results indicated that the total WEPS of Inner Mongolia was estimated to be 73.87×10⁸ t in 2015, which was 4.61×10⁸ t less than in 2010, while the monetary value of WEPS was calculated to be 738.66×10⁸ yuan in 2015, which was 46.16×10⁸ yuan less than in 2010. Among all the leagues and cities, Xilin Gol League supported the highest WEPS, reaching 18.65×10⁸ t in 2015, while Wuhai provided the lowest. The WEPS of Hulunbeier increased the most, by 4.37×10⁸ t from 2010 to 2015. The WEPS in the grassland ecosystem was the highest among the different ecosystems, accounting for more than 55% of the total WEPS in Inner Mongolia, but it was reduced by 1.05×10⁸ t during the same period. The WEPS in the forest ecosystem increased the most, reaching 0.19×10⁸ t. This study found that the implementation of projects such as returning farmland to forests and grasses and sand control effectively increased the WEPS by increasing the forest area. However, unsuitable land use increased the desertification of ecosystems which resulted in a reduction of WEPS in Inner Mongolia.     

Areas Benefiting from Water Conservation in Key Ecological Function Areas in China

Ecosystem services are transferred from the service-providing area to the service-benefiting area to satisfy human needs through some substance, energy or information. Most studies focus on the provision of ecosystem services and few focus on the demands on ecosystem services and their spatial distribution. Here, on the basis of the flow of water conservation services from the providing area to the benefiting area, the benefits produced by water conservation service are investigated and the benefiting areas are identified. The results indicate that in 2010 the water conservation service of key ecological function areas provided irrigation water for 1.67×105 km² of paddy fields and 1.01×10⁵ km² irrigated fields, domestic water to urban residents and industrial water to factories, mines and enterprises of 2.64×10⁴ km² urban construction land and domestic water to rural residents across 3.73×10⁴ km² of rural settlements and formed 6.64×10⁴ km² of inland water which can be used for freshwater aquaculture, downstream regions comprise 1.31×10⁴ km of navigable river, which can be used for inland shipping. The benefit areas of the key function areas located in the upper and middle reaches of the Yangtze River are greater and more influential benefit areas. To protect these key function areas, more attention should be paid to the maintenance and improvement of water conservation. Some benefit areas have access to the benefits produced by water conservation of nine key ecological function areas and cover 17% of the overall benefit area and the length of their channels benefited accounts for 7%. Multiple key ecological function areas should be taken into account equally in the formulation of ecological compensation policies. These research findings can serve as a scientific basis for the compensated use of and ecological compensation for ecosystem services provided by key ecological function areas.     

Ecosystem Service Value Assessment for National Key Eco-function Zones for Water and Soil Conservation

National key eco-function zones for water and soil conservation are exceptionally fragile areas in terms of their eco-environments and are also severely affected by water and soil loss. They have been a focus of attention from all sectors of society. This research assesses important ecosystem service functions and their values using such indexes as NPP, soil conservation quantity and water conservation quantity. The result indicates that the ecosystem services of China’s eco-function zones for water and soil conservation are worth 3268.90×10⁸ CNY in total, of which organic matter production accounts for 530.96×10⁸ CNY, nutrient substance circulation and storage 301.91×10⁸ CNY, carbon fixation and oxygen release 1616.16×10⁸ CNY, soil conservation 442.70×10⁸ CNY and water source conservation 816.20×10⁸ CNY. Of the four functional zones, the Guangxi-Guizhou-Yunnan Area registers the highest value of 1551.30×10⁸ CNY, and the Three Gorges Reservoir Area the lowest value of 448.15×10⁸ CNY. In terms of ecosystem service value per unit of area, the Guangxi-Guizhou-Yunnan Area takes the first place, followed by Three Gorges Reservoir Area and the Dabie Mountain Area, which are roughly equivalent, and finally the Loess Plateau Area is at the bottom.     

Assessment of Changes in the Value of Ecosystem Services in the Koshi River Basin,Central High Himalayas Based on Land Cover Changes and the CA-Markov Model

Climate warming and economic developments have created pressures on the ecological systems that human populations rely on, and this process has contributed to the degradation of ecosystems and the loss of ecosystem services. In this study, Landsat satellite data were chosen as the data source and the Koshi River Basin (KB) in the central high Himalayas as the study area. Changes in land cover and changes in the value of ecosystem services between 1990 and 2010 were analyzed and the land cover pattern of the KB in 2030 and 2050 was modeled using the CA-Markov model. Changes in land cover and in the value of ecosystem services in the KB for the period 2010-2050 were then analyzed. The value of ecosystem services in the KB was found to decrease by 2.05×10⁸ USD y^-1 between 1990 and 2010. Among these results, the services value of forest, snow/glacier and barren area decreased, while that of cropland increased. From 1990 to 2050, forest showed the largest reduction in ecosystem services value, as much as 11.87×10⁸ USD y^-1, while cropland showed the greatest increase, by 3.05×10⁸ USD y^-1. Deforestation and reclamation in Nepal contributed to a reduction in the value of ecosystem services in the KB. Barren areas that were transformed into water bodies brought about an increase in ecosystem services value in the lower reaches of the Koshi River. In general, this process is likely to be related to increasing human activity in the KB.     

基于物质量评估的贵州南部地区生态系统服务及其县域差异比较

以贵州南部地区为例,对涵养水源、固碳释氧、净化大气环境、保育土壤和生物多样性保护5个功能类别共14项指标的生态系统服务物质量进行了区域尺度和县域尺度上的估算。结果表明：① 贵州南部地区林草生态系统年调节水量145.41×10⁸m³,年固碳量和年释氧量分别为819.96×10⁴t和1 538.48×10⁴t,年提供负离子达2.32×10²⁵个,年吸收二氧化硫(SO₂)、氟化物(F)、氮氧化物(NO_X)分别达到58.07×10⁴t、1.29×10⁴t和7.76×10⁴t,年滞尘量1.04×10⁸t,年固土总量9.07×10⁸t,年保育N、P、K以及有机质量分别为184.81×10⁴t、59.26×10⁴t、1 138.80×10⁴t以及4 045.85×10⁴t,平均生物多样性综合评价指数为54.87;② 各类生态系统服务物质量均表现出明显的空间分布趋势,整体表现为东高西低,南高北低;③ 县域尺度上,黎平县、榕江县、从江县和望谟县提供的生态系统服务物质量最多,普定县、三穗县、长顺县和丹寨县则最少;就生态系统服务供给能力而言,雷山县、望谟县、榕江县和从江县最强,兴仁县、普定县、长顺县和贞丰县则最弱。     

区域土地资源人口承载力理论模型及实证研究

在传统食物型人口承载力基础上,引进表征土地资源经济产出的货币型人口承载力来综合考虑土地资源人口综合承载力,建立了区域土地资源人口承载力模型。并以呼和浩特市域作为研究区域,运用系统动力学(SD)原理与方法,在不同情景下模拟了土地资源人口承载力,得出较优的发展方案,即到2020年呼和浩特市域食物型人口承载力为310万人,货币型人口承载力为1 723万人,综合人口承载力为1 000万人口,货币型人口承载力多出食物型人口承载力5.56倍,货币型人口承载力对综合人口承载力的贡献远超过了食物型人口承载力的贡献。     

中国旅游交通的能源效率及其影响因素（英文）

交通是旅游过程中能源消耗和碳排放的主要环节,认识旅游交通能源效率变化及其影响因素对推动旅游低碳化发展具有重要意义。基于中国旅游交通及相关数据,在测算不同类型旅游交通工具能源消耗系数的基础上,遵循"自上而下"原则构建新的研究方法,分析考察1994-2013年旅游交通的能源消耗、碳排放、能源效率及其影响因素。结果显示,1)中国旅游交通能源消耗由178.21PJ增长至565.82PJ,年均增长率为6.27%,相应的CO_2排放由14.96×10~6 t增长至47.94×10~6 t,主要由旅游出游人次数快速增长和旅游出行距离增加引起;2)中国旅游交通能源服务效率由3.22×10~6人次PJ~(-1)提高至5.99×10~6人次PJ~(-1),能源生态效率由26.07 kg人次~(-1)提升至14.01 kg人次~(-1);3)单位交通能耗降低、规模效应、政策推动等成为能源效率提高的主导推动因素,但旅游出行方式变化、享受型交通工具的发展等阻碍了能源效率的提升。基于分析结果,提出了中国旅游交通降低能源消耗、提高能源效率的建议措施。     

基于第二次冰川编目的中国冰川现状

以2004年之后的Landsat TM/ETM+和ASTER遥感影像为基础,参考第一次中国冰川目录及其他文献资料,经过影像校正、自动解译、野外考察、人工修订、交互检查和成果审定等技术环节,完成占全国冰川总面积85.5%的现状冰川编目,确定中国目前共有冰川48571条,总面积约5.18×10⁴βkm²,约占全国国土面积的0.54%,冰川储量约4.3~4.7×10³βkm³。中国冰川数量和面积分别以面积<0.5βkm²的冰川和面积介于1.0~50.0βkm²的冰川为主,面积最大的冰川是音苏盖提冰川（359.05βkm²）。中国西部14座山系（高原）均有冰川分布,其中昆仑山冰川数量最多,其次是天山、念青唐古拉山、喜马拉雅山和喀喇昆仑山,这5座山系冰川数量占全国冰川总数量的72.3%;冰川面积和冰储量位列前3位的山系分别为昆仑山、念青唐古拉山和天山,尽管喀喇昆仑山冰川数量和面积均小于喜马拉雅山,但前者冰储量高于后者。从冰川海拔分布来看,海拔4500~6500βm之间是冰川集中发育区域,约占全国冰川总面积的4/5以上。冰川资源在各流域分布差异显著,东亚内流区（5Y）是中国冰川分布数量最多、面积最大的一级流域,约占全国冰川总量的2/5以上;黄河流域（5J）是冰川数量最少、规模最小的一级流域,仅有冰川164条,面积126.72βkm²。新疆和西藏的冰川面积和冰储量约占全国冰川总面积的9/10。     

基于格点数据的1961-2012年祁连山面雨量特征分析

基于国家气象信息中心发布的全国0.5°×0.5°逐日降水量数据集和气象站点日降水量实测资料,利用主成分分析（PCA）和回归分析,研究了1961-2012年祁连山面雨量年际变化以及面雨量距平与干旱累计强度的关系。结果表明,该套格点数据能够很好地反映出祁连山及其周边区域降水的时空分布格局,山区降水量大于平原区降水量,山区东段降水量大于西段降水量。1961-2012年祁连山面雨量的多年平均值为724.9×10⁸ m³,其中,春、夏、秋、冬的面雨量分别为118.9×10⁸ m³、469.4×10⁸ m³、122.5×10⁸ m³、14.1×10⁸ m³,夏季面雨量最大,占全年的64.76%。除春季外,其他季节面雨量都呈现逐年增加趋势,夏季增幅最大,平均每年增加1.7×10⁸ m³。山区面雨量与祁连山及其周边区域的干湿程度表现出较好的相关性,干旱累计强度与面雨量表现出负相关性,山区面雨量较多时这一地区的干旱强度也较弱。     

Characteristics and Carbon Storage of a Typical Mangrove Island Ecosystem in Beibu Gulf,South China Sea

By studying the structural characteristics and carbon storage of the mangrove island ecosystem in the Beibu Gulf, this study provides a scientific basis for mangrove ecological compensation in the coastal areas of Guangxi, South China Sea. On the basis of the unmanned aerial vehicle remote sensing images and a sample plot survey, the object-oriented multi-scale segmentation algorithm is used to extract the mangrove community type information, and one-way analysis of variance is conducted to analyse the structural characteristics of the mangrove community. The carbon storage and carbon density of different mangrove ecosystems were obtained based on the allometric growth equation of mangrove plants. The analysis yielded four main results. (1) The island group covers about 27.10 ha, 41.32% (11.20 ha) of which represents mangrove areas. The mangrove forest is widely distributed in the tidal flats around the islands. (2) The main mangrove types were Aegiceras corniculatum, Kandelia obovata + Aegiceras corniculatum, Avicennia marina + Aegiceras corniculatum and Avicennia marina communities. (3) Amongst the mangrove plants, Avicennia marina had the highest biomass (18.52 kg plant^-1), followed by Kandelia obovata (7.84 kg plant^-1) and Aegiceras corniculatum (3.85 kg plant^-1). (4) The mangrove carbon density difference was significant. Kandelia obovata had the highest carbon density (148.03 t ha^-1), followed by Avicennia marina (104.79 t ha^-1) and Aegiceras corniculatum (99.24 t ha^-1). The carbon storage of the mangrove island ecosystem was 1194.70 t, which was higher than in other areas with the same latitude. The carbon sequestration capacity of the mangrove was relatively strong.     

缺测站干旱流域生态输水遥感监测与农业节水效益分析

生态输水与农业节水是实现内陆干旱流域可持续发展的重要手段,连续水文观测资料的缺乏制约了生态输水与农业节水效益评价。为此,以中国甘肃敦煌疏勒河流域下游为例,基于遥感水文站与谷歌地球引擎进行2016—2020年月尺度的生态输水遥感监测,在此基础上结合蒸散发和土地覆盖类型等多源遥感数据评价生态输水与农业节水效益,分析两者之间在水资源方面的平衡关系。结果表明：（1） 遥感水文站与谷歌地球引擎（Google Earth Engine, GEE）能够为生态输水遥感监测与农业节水效益评价提供可靠的数据支撑。（2） 2017—2020年生态输水能够为下游湿地与河道平均每年提供2.50×10⁸ m³生态用水,其中30.06%的水量到达下游湿地,18.47%的水量被下游河道周边的植被所利用,且使下游河道周边植被面积增加112.25 km²。（3） 农业节水在保持耕地面积维持上升趋势的前提下,2017—2020年平均每年降低耕地的蒸散发量0.395×10⁸ m³;耕地蒸散发减少量平均占生态输水量的14.22%,农业节水有效缓解了内陆干旱流域农业用水挤占生态用水的问题。本文将为内陆干旱缺测站流域的生态输水遥感监测与农业节水效益评价提供新的思路,以期为未来的生态输水与农业节水工程的实施提供理论支撑。     

新疆哈密2018·7·31特大暴雨山洪汇水量估算与应用研究

在干旱少雨的山区开展小流域的暴雨山洪预报预警关键技术研究,对防灾减灾意义重大。2018年7月31日新疆哈密北部山区出现特大暴雨,发生罕见的山洪灾害,致使射月沟流域水库漫坝溃口,下游受灾严重。射月沟流域气象观测站点少且缺乏水文监测资料,为客观定量分析射月沟流域大暴雨面雨量、形成的洪水汇水量以及致灾水库过程。通过采用空间插值法和多源融合逐时降水资料（CMPAS）计算了射月沟水库上游面雨量并进行检验分析。根据不同面雨量驱动Floodarea模型得出射月沟水库上游累计汇水量,结果表明：多源融合降水产品估算所得最大洪峰流量和累计汇水量与水利部门事后调查数据较吻合,最大洪峰量为1 756 m³·s^-1,精确性达到调查值的95%,射月沟水库上游暴雨山洪总量为2.64×10⁷ m³,远超该水库的防洪库容和溢洪道承载能力。     

生态系统服务权衡与协同视角下的重点生态功能区保护特征

重点生态功能区提供着源源不断的生态系统服务,在保障国家生态安全和社会可持续发展方面,有着不可或缺的基础作用。但是,以生态系统服务权衡与协同关系为视角,进而探讨分析重点生态功能区保护特征的研究案例相对较少。本文以秦巴重点生态功能区为评估分析区域,选择自然地理条件相似度极高的秦巴山区为参照单元,以生态系统供给服务与调节服务为核心内容,在定量分析2000—2019年期间的生态空间变化特征基础上,分析评估生态系统服务权衡与协同关系。结果表明：秦巴山区生态状况逐渐变好,重点生态功能区划定之后,生态系统趋于稳定;重点生态功能区服务能力呈逐渐增强的趋势,平均净初级生产力、土壤保持总量和水源涵养总量比重点生态功能区外分别高出了25.95 gC/m²、5.81亿t和24.95亿m³;土壤保持服务和生态系统供给服务的协同关系与生态状况改善呈正相关;由于受到降水的影响,2010年之后的水源涵养服务与生态系统供给服务的协同关系变差。总体来看,秦巴重点生态功能区的划定带动了区域生态空间“量的增长”和生态系统服务“质的提升”,但生态系统服务之间关系的“协调性”仍然不足,甚至从“协同”转为“权衡”关系,这要求未来国家需要制定更有针对性的生态系统保护管理决策,提高生态系统总体效益,支撑区域生态系统服务的可持续供给。     

干旱内陆流域生态需水量及其估算──以黑河流域为例

在干县内陆流域生态需水量概念与分类的基础上,以黑河流域为例,讨论了生态需水量估算的方法。采用两种半经验潜水蒸发公式和直接植物蒸腾估算等三种方法,以1995年为基准,分别对流域中游防护林生态体系需水量和下游荒漠绿洲生态需水量进行了初步估算,结果表明:黑河流域中游人工防护林生态需水量约为2.1× 10⁸~2.16×10⁸ m³,下游荒漠绿洲生态需水量为5.23×108~5.7×10⁸ m³;为维持或稳定流域下游额济纳现有绿洲规模,狼心山断面过水流量不应小于5.8×10⁸m³。     

Research on the Patterns and Evolution of Ecosystem Service Consumption in Nepal

The study of ecosystem service consumption (ESC) in Nepal not only helps us to understand the intensity and management level of Nepal’s ecosystem utilization, but also provides scientific data support for the establishment and planning of China’s aid to Nepal. Based on the data of food consumption and forestry production and trade, this study dynamically investigated the consumption levels, structure and ecological consumption patterns of farmland, forest, grassland, water and the integrated ecosystem in Nepal and their main driving forces, using the physical quantity accounting method. The results showed that the total consumption of farmland, forest, grassland, water and the integrated ecosystem in Nepal from 1961 to 2018 exhibited a fluctuating increase, with average value of 7.26 Tg yr^-1, 6.38 Tg yr^-1, 1.10 Tg yr^-1, 0.02 Tg yr^-1 and 14.76 Tg yr^-1, respectively. The annual per capita forest consumption roughly decreased, while the annual per capita consumption of farmland, grassland, waters and integrated ecosystems mostly increased with their growth rates accelerating. The corresponding ecological consumption patterns were the “Log-Cereal-Milk” mode during 1961-1984, the “Log-Cereal-Vegetable-Root-Milk-Sugar” mode during 1985-2007 and the “Log-Cereal-Vegetable-Root-Sugar-Fruit-Milk” mode during 2008-2018. This study indicated that the supply capacity of the ecosystem (production, import and export capacity) and socio-economic factors (population density, per capita GDP and religious beliefs) are the main driving forces that are restricting the evolution of Nepal’s ecological consumption pattern. Although Nepal’s dietary structure has improved significantly, there is still a large gap between it and the standard of a balanced diet. The supply capacities of fruits, meat, eggs, milk and aquatic products should be enhanced to meet people’s demand for a balanced diet. This study can provide data support for the establishment of China’s aid projects to improve Nepal’s livelihood.     

人与自然和谐共生新格局下评估干旱区林果业生产的生态功能价值——以新疆南疆地区为例

量化评估干旱区林果业生产的生态功能价值,可以使人们尤其是林果种植户更充分认识林果业生产在改善当地生态环境方面的作用和效果,促使其生产决策时不只考虑经济因素,还更注重生态因素,实现环境保护、林果经济发展和种植户增收协同增效。以干旱区新疆南疆地区为例,运用影子工程法、造林成本法、机会成本法和成本替代法测算林果业生产所提供的各项生态功能价值。结果表明：（1） 南疆地区总的生态功能价值从2003年的41.22×10⁸~45.11×10⁸元增长至2018年的110.86×10⁸~121.05×10⁸元,2010年达最高水平141.02×10⁸元;就具体生态功能价值而言,固碳释氧>保护生物多样性>保育土壤>涵养水源>净化环境;各地州林果业生产总的生态功能价值排序固定不变（2003年除外）,即喀什地区>阿克苏地区>巴音郭楞蒙古自治州>和田地区>克孜勒苏柯尔克孜自治州;克孜勒苏柯尔克孜自治州与喀什地区发展趋势相似,波动幅度大且与整体发展趋势最接近;和田地区以11.10%增幅稳定增长。（2） 由于种植规模的不稳定性,南疆地区林果业生产总的生态功能价值水平波动发展,于2010年达最高水平后呈现出下降趋势。（3） 对于集干旱、风沙于一体的地区,林果种植在净化环境和涵养水源方面的作用持续性强、意义更深远。建议政府大力宣传林果种植的生态效益并制定生态林果生产支持政策,以部分补贴林果种植户;同时,考虑空间邻近效应,各地州要统一合理规划林果业生产布局。     

中国食物供给能力分析

从中国各类型生态系统(农田、草地、水域) 的实际的食物生产能力出发,结合进出口产品中的食物部分,得出全国实际的食物供给能力,根据食物营养成分表中的转化率,将各类食物折算成人类生存所需的3 大营养成分(热量、蛋白质、脂肪) 的产量来表示,并利用ArcGIS 进行草地和农田食物供给的空间分析。以2004 年为例,中国实际食物供给能力为：热量1.601×10¹⁵ kcal,蛋白质6.163×10⁷ t,脂肪2.717×10⁷ t。其中,中国内陆生态系统实际可供给热量1.454×10¹⁵ kcal,蛋白质4.996×10⁷ t,脂肪2.074×10⁷ t,分别达到了陆地生态系统生产潜力的32.46%、38.33 %和41.12%,内陆生态系统食物供给还有较大的增长余地。在小康水平下,中国的食物热量、蛋白质、脂肪分别可以供养人口19.12 亿,20.84 亿和11.03 亿人,按照2010 年营养目标和2020 年全面小康目标,热量和蛋白质的供给已经较为充足,而脂肪的供给有所不足,今后需要注重油脂作物的种植和生产。结果还表明：中国的食物供给能力中,农田占据了绝大部分,不过比例有下降的趋势,从1998 年的84.66%,下降到2004 年的74.72%;草地和水域生态系统所提供的食物所占比例分别为4.83%~5.80%、6.02%~7.51%,波动较小;净进口食物所占比例逐年增长,1998 年仅为4.04%,2004 年增加到13.82%。通过平衡模型计算,在温饱、小康、富裕水平下,2004 年中国可以供养的人口分别为：15.34 亿,15.00 亿和14.11 亿,这表明,如果能够优化种植结构,合理配置植物性食物向动物性食物转化比例,均衡营养消费结构,中国实际食物供给较为充足。     

黑河下游绿洲植被优势种生物量空间分布及蒸腾耗水估算

基于典型样点试验,建立了研究区植被优势种柽柳、胡杨与苦豆子地上生物量与其生态参数关系模型;利用高分辨率遥感影像Geoeye-1对植被优势种进行分类得到生态参数,实现了其地上部分生物量空间分布估算;最后利用生物量与蒸腾系数关系,估算植被优势种蒸腾耗水。结果显示：植被优势种总生物量为2.53×10⁶t,河流距离对生物量影响显著。根据试验测得的植被优势种蒸腾系数估算出总蒸腾耗水量为10.89×10⁸t,柽柳、胡杨与苦豆子所占比例分别为12.94%,82.93%与4.13%。     

Net Horizontal Payments for Ecosystem Services: An Application in the Beijing-Tianjin-Hebei Region of China

Payments for ecosystem services (PES) are one kind of important tool for environmental protection, and have been widely studied by international scholars and conservationists. Based various definitions of PES from recent articles, we have outlined four principles for PES: parity, measurability, additionality and conditionality, and then have used these principles to develop a formula to calculate a standard for PES. Finding a way to use PES to achieve a win-win relationship between economic growth and environmental protection in the Beijing-Tianjin-Hebei Region (BTHR) is a key task for Chinese government. Synergetic development of BTHR has become a national strategy, like The Belt and Road Initiative. This article employed the formula we developed to calculate the net horizontal PES amounts that each provincial government within BTHR should pay. Our findings show that Beijing should have paid 10.44×10⁹ Yuan (0.4% of Beijing’s GRP) and Tianjin 16.56×10⁹ Yuan (0.93% of Tianjin’s GRP) to Hebei in 2016.     

中国森林叶片功能属性的纬度格局及其影响因素

为了探究森林植物叶片功能属性的地理格局及其影响因素,在2013年7-8月期间系统调查了中国东部南北样带9个森林生态系统的847种植物的叶片面积（LA）、叶片厚度（LT）、比叶面积（SLA）和叶片干物质含量（LDMC）,并结合群落结构计算了各属性的群落加权平均值（LA_CWM、SLA_CWM、LT_CWM和LDMC_CWM）。结果显示：847种植物的LA、LT、SLA和LDMC的平均值（±标准误）分别为2860.01±135.37 mm²、0.17±0.003 mm、20.15±0.43 m² kg^-1和 316.73±3.81 mg g^-1。SLA和LDMC表现出了明显的纬度格局,随着纬度增加,SLA逐渐增加,LDMC降低;然而,LA和LT沿纬度的变化趋势不明显（R² = 0.02 ~ 0.06）。不同植物类型之间叶片属性的差异是影响LA、LT、SLA和LDMC空间变化的主要因素;叶片功能属性的群落加权值表现出了更加明显的纬度分布格局（R² = 0.46 ~ 0.71）,这主要受到了气候因素和土壤N含量的影响。本文结果完善了中国区域森林生态系统叶片功能属性地理分布的数据库,同时强调了在研究植物属性空间格局时,考虑群落结构在尺度扩展中的重要性。