盐生荒漠生态系统二氧化碳通量的年内、年际变异特征

采用涡度相关法,并结合小气候观测,对荒漠生态系统净二氧化碳通量进行了连续3个生长季的观测（2004—2006年）,并据此分析了荒漠生态系统净二氧化碳通量及其主要成分GPP和Reco的季节和年际间变化特征。结果表明,在生长季尺度上,各个阶段二氧化碳吸收量的大小分别为:生长旺盛期>生长初期>生长末期,这可能与植物叶面积的大小以及光合有效辐射,大气温度等环境要素有关系。在年际尺度上,3个生长季同阶段的二氧化碳吸收量存在明显差异,生长季初期5月,2004年碳吸收最强,2006年次之,2005年最小。对于生长旺盛期,降水量最大的2004年碳吸收能力最强,正午最大值可以达到-0.12 mg·m-2·s-1,2005年次之,最大值达-0.06 mg·m-2·s-1,仅仅是2004年最大值的1/2,2006年最小,正午吸收的最大值为-0.02 mg·m-2·s-1,生长季末期,3个生长季的月均日变化非常相似,其在正午的最大吸收值也没有显著差异,正午最大吸收量为-0.01 mg·m-2·s-1左右,其他时段均在0值附近。即使在降水量相近的两个年份里（2005—2006年）,其NEE的最大值出现时间也不一致,2005年NEE的最大月累计量出现在8月和9月,而2006年则出现在6月和7月,这可能与年内降水量分布格局有关。3个生长季荒漠生态系统均表现为净二氧化碳吸收,其吸收量分别为:-236.18 g·m-2,-63.07 g·m-2和-91.97 g·m-2。年际差异的形成原因是降水差异造成的一年生草本植物数量变化,不利用降水的建群种应该对此没有贡献。     

基于地形梯度的陕西省生态系统服务价值评估

为评估陕西省生态系统服务价值在地形梯度上的分布及变化趋势,利用2000、2010年土地利用DEM数据,定量探讨了陕西省生态系统服务价值的时序变化和空间分布特征,并对陕西省整体生态经济协调度进行分析.结果表明：2000-2010年,陕西省生态系统服务价值增加了10.92亿元,其中林地和草地生态系统服务价值分别增加21.40亿元和23.16亿元,耕地生态系统服务价值减少34.16亿元;在地形梯度上,生态系统服务价值呈中间高、南北低的分布特征,且主要集中于坡度为0°~14.6°,高程为1 067~1 380 m的地形梯度单元内.单项生态系统服务价值中,废料处理和食物生产生态系统服务价值因耕地减少而损失严重,共减少6.08亿元.生态经济协调度评估结果表明：区域生态经济的发展整体趋于不协调,建议在经济发展的同时加强对生态环境的保护力度.     

Banking carbon: a review of organic carbon storage and physical factors influencing retention in floodplains and riparian ecosystems

Rivers are dynamic components of the terrestrial carbon cycle and provide important functions in ecosystem processes. Although rivers act as conveyers of carbon to the oceans, rivers also retain carbon within riparian ecosystems along floodplains, with potential for long‐term (> 10² years) storage. Research in ecosystem processing emphasizes the importance of organic carbon (OC) in river systems, and estimates of OC fluxes in terrestrial freshwater systems indicate that a significant portion of terrestrial carbon is stored within river networks. Studies have examined soil OC on floodplains, but research that examines the potential mechanistic controls on OC storage in riparian ecosystems and floodplains is more limited. We emphasize three primary OC reservoirs within fluvial systems: (1) standing riparian biomass; (2) dead biomass as large wood (LW) in the stream and on the floodplain; (3) OC on and beneath the floodplain surface, including litter, humus, and soil organic carbon (SOC). This review focuses on studies that have framed research questions and results in the context of OC retention, accumulation and storage within the three primary pools along riparian ecosystems. In this paper, we (i) discuss the various reservoirs for OC storage in riparian ecosystems, (ii) discuss physical conditions that facilitate carbon retention and storage in riparian ecosystems, (iii) provide a synthesis of published OC storage in riparian ecosystems, (iv) present a conceptual model of the conditions that favor OC storage in riparian ecosystems, (v) briefly discuss human impacts on OC storage in riparian ecosystems, and (vi) highlight current knowledge gaps. Copyright © 2015 John Wiley & Sons, Ltd.     

Conditions for feedbacks between geomorphic and vegetation dynamics on lateral moraine slopes: a biogeomorphic feedback window

Little Ice Age lateral moraines represent one of the most important sediment storages and dynamic areas in glacier forelands. Following glacier retreat, simultaneous paraglacial adjustment and vegetation succession affect the moraine slopes. Geomorphic processes (e.g. debris flows, interrill erosion, gullying, solifluction) disturb and limit vegetation development, while increasing vegetation cover decreases geomorphic activity. Thus, feedbacks between geomorphic and vegetation dynamics strongly control moraine slope development. However, the conditions under which these biogeomorphic feedbacks can occur are insufficiently understood and major knowledge gaps remain. This study determines feedback conditions through the analysis of geomorphic and vegetation data from permanent plots in the Turtmann glacier foreland, Switzerland. Results from multivariate statistical analysis (i) confirm that Dryas octopetala L. is an alpine ecosystem engineer species which influences geomorphic processes on lateral moraines and thereby controls ecosystem structure and function, and (ii) demonstrate that biogeomorphic feedbacks can occur once geomorphic activity sufficiently decreases for D. octopetala to establish and cross a cover threshold. In the subsequent ecosystem engineering process, the dominant geomorphic processes change from flow and slide to bound solifluction. Increasing slope stabilization induces a decline in biogeomorphic feedbacks and the suppression of D. octopetala by shrubs. We conceptualize this relationship between process magnitude, frequency and species resilience and resistance to disturbances in a ‘biogeomorphic feedback window’ concept. Our approach enhances the understanding of feedbacks between geomorphic and alpine vegetation dynamics on lateral moraine slopes and highlights the importance of integrating geomorphic and ecological approaches for biogeomorphic research. Copyright © 2015 John Wiley & Sons, Ltd.     

四川省水稻气候干旱灾害风险研究

水稻生育时期内水分亏缺, 是形成水稻气候干旱的首要条件. 利用四川省1960-2010年159个气象站逐日降水量、日平均气温资料和水稻生育时期资料, 以降水距平百分率、相对湿润度指数作为干旱指标, 分析四川省水稻分蘖期、拔节孕穗期和抽穗扬花期不同气候干旱等级发生概率, 构建水稻气候干旱灾害风险模型, 评估四川省水稻分蘖期、拔节孕穗期和抽穗扬花期以及整个生育时期的气候干旱风险. 结果表明:四川省水稻拔节孕穗期和抽穗扬花期气候干旱风险较高, 降水距平百分率和相对湿润度指数的风险区划结果并不完全相同, 但分布趋势相近. 水稻整个生育时期, 四川盆地和东北部部分地区干旱风险较高, 川南地区干旱风险相对较小.     

Disturbance,geomorphic processes and recovery of wildfire slopes in North Tyrol

Wildfires in the sub‐alpine belt of the Austrian Limestone Alps sometimes cause severe vegetation and soil destruction with increased danger of secondary natural hazards such as avalanches and debris flows. Some of the affected areas remain degraded to rocky slopes even decades after the fire, raising the question as to whether the ecosystems will ever be able to recover. The mean fire interval, the duration of recovery and the role of geomorphic processes for vegetation regeneration are so far unknown. These questions were tackled in a broad research approach including investigation of historical archives to determine the frequency of historical wildfires, mapping vegetation regeneration on 20 slopes of different post‐fire ages, and soil erosion measurements on two slopes. To date, > 450 historical wildfires have been located in the study area. The mean fire interval per square kilometre is c. 750 years, but can be as low as 200–500 years on south‐facing slopes. Vegetation regeneration takes an extremely long time under unfavourable conditions; the typical window of disturbance is between 50 and 500 years, which is far longer than in any other wildfire study known to us. Soil erosion constantly increases in the years after the fires and the elevated intensity can be maintained for decades. A two‐part vegetation regeneration model is proposed depending upon the degree of soil loss. In the case of moderate soil erosion, spreading grassland communities can slow down shrub re‐colonization. In contrast, after severe soil destruction the slopes may remain degraded for a century or longer, before rather rapid regeneration occurs. The reasons are not fully understood but are probably governed by geomorphic process intensity. The interdependence of vegetation regeneration and geomorphic processes is a paradigm of ecology–geomorphology interaction, and is a unique example of a very long‐lasting disturbance response caused by wildfire in a non‐resilient ecosystem. Copyright © 2012 John Wiley & Sons, Ltd.     

曹妃甸围填海工程的海洋生态服务功能损失估算

以曹妃甸围填海工程为例,采用直接市场法、影子工程法和替代花费法等构建了围填海工程的海洋生态系统服务功能损失的货币化评估模型与方法,并采用对比分析法,建立并探讨了曹妃甸围填海工程对周边海域生态服务功能影响的损失估算方法。结果表明:曹妃甸围填海一期工程占用海域滩涂面积10 500 hm2,由此每年造成海洋生态服务功能价值损失4 735.67万元,其中生物多样性维持功能损失占46.52%,气候调节功能损失占20.92%,空气质量调节功能损失占9.62%,食品生产功能损失占8.98%。曹妃甸围填海工程导致其东部海域生态系统服务功能价值损失每年为421.10万元,其中生物多样性维持功能每年损失1 242.04万元、食品生产功能每年损失452.99万元,而气候调节功能和空气质量调节功能因海洋浮游植物群落初级生产增加而出现功能增大,每年服务功能价值分别增加998.12万元和459.03万元。表明曹妃甸大规模围填海工程不仅对围填所在海域海洋生态系统服务功能造成彻底毁灭,也对围填周边海域海洋生态系统服务功能产生重要影响。     

铁山港海草生态区各种形态N的含量变化及其相互关系

根据2008年1月—2008年11月在铁山港海草生态区进行4个季节月综合调查所获取的数据资料,首次对水体中5种形态氮的含量变化特征及其相互关系进行研究。结果表明:不同形态N的含量变化具有海草生态区特点,TN含量明显偏高,DIN含量却显著偏低,依次排列为:TN>DN>DON>PN>DIN;其中TN、PN和DIN均以春夏季明显高于秋冬季出现,ON则呈夏秋季高、冬春季低特征,只有DON表现为夏季高、秋冬季次之、春季最低。相关分析显示:各种形态N之间以TN与PN、DN与DON之间的关系最为密切,多达非常显著(P≤0.01)的正相关水平,但在季节上却以秋季最为突出,所有形态N之间均以非常显著的正相关出现,具有很好的同源性。整个海区不同形态N/P比均较高,年平均值均在24.64～50.68之间,P相对于N呈匮乏状态,与N的补充源较丰富有关,海草枯落物在其中起重大贡献作用。     

天然橡胶产业生态系统管理(英文)

天然橡胶产业生态系统管理是实现天然橡胶产业可持续发展的生态途径。本文在系统分析天然橡胶产业生态系统结构和功能的基础上,以海南为例,提出了天然橡胶产业生态系统管理的基本模式,其中重点探讨了天然橡胶产业生态系统管理的基本原则、管理步骤及管理途径,旨在为天然橡胶产业生态系统健康和可持续发展提供理论依据和实践指导。     

三江源地区草地生态系统服务价值评估

三江源地区的草地生态系统对于维持区域生态平衡和保障社会经济可持续发展具有重要意义。本文基于千年生态系统评估(Millennium Ecosystem Assessment, MA)的生态系统服务分类体系, 采用多种方法对三江源草地生态系统的9 项服务价值逐项进行了评估, 得出2000 年三江源草地生态系统服务价值为562.60 亿元, 其中价值最高的两种服务类型依次为气候调节和食物生产, 分别达259.09 亿元和111.68 亿元, 贡献率分别为46.05%、19.85%。按照草地类型划分, 高寒草甸和高寒草原服务价值分别为490.95 亿元、64.68 亿元, 占总服务价值的87.42%和11.52%。虽然沼泽单位面积服务价值最高, 为4230.77 元/hm², 但在草地生态系统面积中所占比例较低, 总价值相对很低。本文关于三江源草地生态系统的评估结果可以为制定区域生态保护和生态补偿政策提供科学支撑。