若尔盖沼泽湿地的萎缩机制   总被引：1，自引：0，他引：1       下载免费PDF全文

李志威  王兆印  张晨笛  韩鲁杰  赵娜 《水科学进展》2014,25(2):172-180

1960年以来,若尔盖沼泽湿地的快速萎缩严重影响黄河上游水量补给和当地湿地生态系统,但其机制尚不清晰。基于2010—2013年野外调查、气象水文资料和遥感影像,分析若尔盖沼泽退化的主要原因与机制。尽管气温的缓慢升高,但降水量并未减少,考虑到沼泽的季节性特征,气候变暖对沼泽萎缩影响相当有限,但不是主要原因。经遥感判读和统计,共识别现有920 km的人工渠道,其疏干的沼泽面积约648.3 km2,占总萎缩面积的27%。人工开渠作为强烈的人类活动干扰,是若尔盖沼泽快速萎缩的重要原因。自然水系的溯源侵蚀长期疏干沼泽、降低地下水水位和放射状地向沼泽内部切穿是沼泽萎缩的重要机制。人工开渠连通自然水系强化沼泽内河床下切和排水作用。  相似文献   

基于PLSR的典型沼泽湿地植物叶片性状与光谱模型构建——以三江国家级自然保护区为例     

姚允龙  王欣  谭霄鹏  单元琪 《地理科学》2022,42(9):1638-1645

通过植物光学特性测量叶片性状是一种非破坏性的、长期的湿地动态监测方法。选择三江国家级自然保护区多种典型湿地植物为研究对象,探究植物性状与叶片光谱之间的联系。研究表明：叶片氮含量与光谱的模型构建效果最好,模型R²为0.61,均方根误差（RMSE）为2.3862;叶片含水量、叶片磷、可溶性糖、纤维素和木质素含量之和的模型一般,R²在0.38~0.55范围内,RMSE在0.0004~10.7019范围内;淀粉含量拟合效果较差, R²为0.29,RMSE为0.0106。光谱预测重要性的结果表明,可见光与近红外边缘范围内的光谱信息对于叶片含水量、叶片氮含量、叶片磷含量、单位叶面积质量、纤维素和木质素之和、可溶性糖和淀粉的预测具有最高的重要性。  相似文献   

青藏高原东缘玛曲沙化高寒草地土壤理化性质北大核心CSCD     

李世龙 《中国沙漠》2022,42(6):44-52

沙漠化是青藏高原东缘高寒草地退化的重要指征,土壤理化性质是反映草地沙化过程的重要特征参数。以青藏高原东缘玛曲县为例,分析天然草地和轻度、中度、重度、极重度沙化草地土壤粒度组成、温湿度、有机碳和养分等因子的差异特征,旨在阐明高寒草地沙化过程中土壤理化性质的变化。结果表明:草地土壤黏土和粉沙含量随着沙化的发展显著减小,而沙颗粒含量(细沙和中沙)随着沙化程度的增加而增大;5—8月生长季,重度沙化土壤相比轻度沙化土壤温度明显升高,土壤含水量明显降低;随着沙化程度的增加,土壤有机碳含量显著降低,轻度沙化减少50%以上,中度至极重度沙化草地减少91%—99%;土壤全氮(TN)、碱解氮(AN)、全磷(TP)、有效磷(AP)等含量在轻度以上沙化草地中显著降低,而全钾(TK)变化不明显,速效钾(AK)仅在中度至极重度沙化草地中含量降低。高寒草地沙化进程中,随着植被盖度的不断降低,表层细颗粒物逐渐风蚀、土壤养分流失,粗颗粒物质保留下来,土壤含水量降低,在风的分选作用下不断堆积形成流动性沙丘。  相似文献   

AVHRR分裂窗算法反演高山草甸地表温度精度评估     

闵文彬  李跃清 《四川气象》2014,(2):44-47

利用理塘县高山草甸地表温度实测数据,分析6种常用AVHRR分裂窗算法的精度,为青藏高原地区地表温度的卫星反演提供技术支持.结果表明：6种常用AVHRR分裂窗算法反演地表温度与实测值之间有很好的线性正相关关系,反演温度与实测温度最大偏差3.36K,最大平均绝对误差2.25k,最小平均绝对误差0.77K.给出了反演高山草甸地表温度的AVHRR分裂窗算法建议.  相似文献   

沼泽湿地土壤中硝态氮和铵态氮物理运移研究进展   总被引：1，自引：0，他引：1  

牟晓杰  孙志高  王玲玲 《海洋湖沼通报》2010,(1)

沼泽湿地土壤是氮的重要储库,发挥着源、汇和转化器的重要功能。湿地土壤中无机氮的物理运移不但影响着植物的养分供给状况,而且其对于湿地生态系统的结构、功能及健康状况等也有着深刻影响。综述了沼泽湿地土壤无机氮物理运移及影响因素的研究动态。当前湿地土壤无机氮物理运移的研究主要集中在硝态氮和铵态氮(特别是硝态氮)物理运移规律及部分影响因素(如水分条件、土壤物理性质等)的探讨上,缺乏无机氮物理运移的动力学、热力学机制与模型表征研究。鉴于当前研究中存在的问题,指出天然沼泽湿地是研究的薄弱点,其在今后应亟需加强的领域包括:①无机氮物理运移的驱动机制;②动力学、热力学与环境效应模型表征;③人类活动和全球变化对无机氮物理运移的影响。  相似文献   

A near‐annual palaeohydrological study based on testate amoebae from a sub‐alpine mire: surface wetness and the role of climate during the instrumental period     

Mariusz Lamentowicz  Willem Van Der Knaap  Łukasz Lamentowicz  Jacqueline F. N. Van Leeuwen  Edward A. D. Mitchell  Tomasz Goslar  Christian Kamenik 《第四纪科学杂志》2010,25(2):190-202

We present the first testate amoeba‐based palaeohydrological reconstruction from the Swiss Alps, and the first depth to the water table (DWT) calibration dataset for this region. Compared to existing models, our new calibration dataset performs well (RMSEP = 4.88), despite the length of the water table gradient covered (53 cm). The present‐day topography and vegetation of the study mire Mauntschas suggest that it is partly ombrotrophic (large Sphagnum fuscum hummocks, one of which was the coring site) but mostly under the minerotrophic influence of springs in the mire and runoff from the surrounding area. Ombrotrophic Sphagnum fuscum hummocks developed at the sampling site only during the last 50 years, when testate amoebae indicate a shift towards dry and/or acid conditions. Prior to AD 1950 the water table was much higher, suggesting that the influence of the mineral‐rich water prevented the development of ombrotrophic hummocks. The reconstructed DWT correlated with Pinus cembra pollen accumulation rates, suggesting that testate amoebae living on the mire and P. cembra growing outside of it partly respond to the same factor(s). Finally, temperature trends from the nearby meteorological station paralleled trends in reconstructed DWT. However, contrary to other studies made on raised bogs of northwestern Europe, the highest correlation was observed for winter temperature, despite the fact that testate amoebae would more logically respond to moisture conditions during the growing season. The observed correlation with winter temperature might reflect a control of winter severity on surface moisture during at least the first part of the growing season, through snow melt and soil frost phenomena influencing run‐off. More ecohydrological work on sub‐alpine mires is needed to understand the relationships between climate, testate amoebae and peatland development. Copyright © 2009 John Wiley & Sons, Ltd.  相似文献   

Contribution of climatic and anthropogenic effects to the hydric deficit of peatlands     

Chrystelle Auterives  Luc Aquilina  Olivier Bour  Mélanie Davranche  Valérie Paquereau 《水文研究》2011,25(18):2890-2906

The present study makes use of a detailed water balance to investigate the hydrological status of a peatland with a basal clay‐rich layer overlying an aquifer exploited for drinking water. The aim is to determine the influence of climate and groundwater extraction on the water balance and water levels in the peatland. During the two‐year period of monitoring, the hydrological functioning of the wetland showed a hydric deficit, associated with a permanent unsaturated layer and a deep water table. At the same time, a stream was observed serving as a recharge inflow instead of draining the peatland, as usually described in natural systems. Such conditions are not favourable for peat accumulation. Field investigations show that the clay layer has a high hydraulic conductivity (from 1·10^?7 to 3·10^?9 m.s^?1) and does not form a hydraulic barrier. Moreover, the vertical hydraulic gradients are downward between the peat and the sand aquifer, leading to high flows of groundwater through the clay layer (20–48% of the precipitation). The observed hydric deficit of the peatland results from a combination of dry climatic conditions during the study period and groundwater extraction. The climatic effect is mainly expressed through drying out of the peatland, while the anthropogenic effect leads to an enhancement of the climatic effect on a global scale, and a modification of fluxes at a local scale. The drying out of the peatland can lead to its mineralisation, which thus gives rise to environmental impacts. The protection of such wetlands in the context of climate change should take account of anthropogenic pressures by considering the wetland‐aquifer interaction. Copyright © 2011 John Wiley & Sons, Ltd.  相似文献   

Evaporation and energy balance of a wet grassland at Tadham Moor on the Somerset Levels     

R. J. Harding  C. R. Lloyd 《水文研究》2008,22(13):2346-2357

Wet grasslands are important both for their conservation value and for their important hydrological function. Evaporation is an important component of the water balance of a wetland. Where water is limited rainfall and/or surface (or sub‐surface) inflows are required to balance the summer evaporation and thus become a significant factor in the maintenance and environmental health of a wetland. This study presents an almost complete year of measurements of the water and energy balance of a wet grassland in the Somerset Levels in southwest England. The majority of the radiant energy at this site goes into evaporation. There is a strong seasonality of the controls on evaporation; the roughness length varies by a factor of 10 between winter and summer. The surface resistance to evaporation is low, close to zero, during the winter when the water table is at, or just below the surface. In the summer the water table drops to 80 cm below the surface; there is no sign of soil water stress on the evaporation but a clear effect of the senescence of grass during seed head production and of the subsequent harvest. There is clear evidence that water for evaporation is provided by the drainage ditches through sub‐surface flow. Standard evaporation formulae—such as the Penman‐Monteith equation with constant and standard parameters—provide a reasonable simulation of the total evaporation at this site, although they miss some of the seasonal detail. Copyright © 2008 John Wiley & Sons, Ltd.  相似文献   

WETLANDS IN CHINA: FEATURE, VALUE AND PROTECTION   总被引：2，自引：1，他引：1  

Xian-guo Lu  Hong-yu Liu  Qing Yang 《中国地理科学(英文版)》2000,10(4):296-301

The estimated total area of wetland in China is more than 25.9 million hectares including about 11.9 million hectares of marshes and bogs, 9.1 million hectares of lake and about 2.2 million hectares of coastal salt marshes and mudflats. The area of wetland is equivalent to 2.7% of the land surface. China also has 2.7 million hectares of shallow sea water (less 5m in depth at low tide). Marshes and bogs are equivalent 1.3% of the land surface. Only three provinces (regions)—Qinghai, Xizang (Tibet) and Heilongjiang — have a larger total area of marsh and bog. According to the structure, type and development of wetland in different river basins, wetland can be classified nine main regions. The experiments indicate that the coefficient of the marsh to regulate flood is similar to that of lakes. Wetlands occupy 17.8% of the Sanjiang Plain area, the annual carbon contribution is 0.78 × 10⁴t. Carbon released from marsh soil return into atmosphere is 3.95 × 10⁶t/a. At present there is a sharp contradiction between population growth and natural resources shortage, causing wetland to be exerted with huge pressures and serious threats. Foundation item: Under the auspices of the Key B Item of the Chinese Academy of Sciences (KZ951-B1-201-02). Biography: LU Xian-guo (1957 —), male, a native of Changchun City, Jilin Provice, professor. His research interests include wetland process and environmental effect.  相似文献   

A review of models and micrometeorological methods used to estimate wetland evapotranspiration     

Judy Z. Drexler  Richard L. Snyder  Donatella Spano  Kyaw Tha Paw U 《水文研究》2004,18(11):2071-2101

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