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长白山苔原带土壤温度与肥力随海拔的变化特征 总被引:3,自引:0,他引:3
土壤温度与土壤肥力的分解释放、植被生长密切相关。利用2015年8月至2017年6月长白山西坡苔原带5 cm土壤温度并测试其土壤肥力,分析了土壤温度与肥力随海拔的变化特征及土壤温度对苔原带肥力的影响。结果表明:(1)长白山西坡苔原带土壤最热月为8月,最冷月为1、2月。长白山西坡苔原带土壤年均温随海拔的升高而下降,垂直变化率为-0.44℃·(100m)-1。月均温垂直变化率则有所差别,5-9月垂直变化率为正,其余月份垂直变化率为负。(2)海拔是土壤温度空间分异的主要影响因素,冷季土壤温度随海拔升高而显著降低。随着海拔升高,越稀疏的植被和越薄的土层使得土壤热容量越小,暖季土壤温度随海拔升高而显著升高。(3)长白山西坡苔原带土壤肥力,尤其是与植物生长关系密切的速效养分随海拔升高表现出先升高再降低,在植物多样性和丰富度及草本植物盖度最高的2 250 m处达到土壤肥力最高水平。低海拔(2 050~2 250 m)的土壤肥力水平明显高于高海拔(2 350~2 550 m)的土壤肥力水平。西坡苔原带土壤肥力的空间分异状况受草本植物入侵影响较大。(4)长白山西坡苔原带土壤肥力水平随土壤温度升高而升高,温度是土壤有机质分解和矿物质养分转化的限制性因素。建议山地苔原带生态系统生产和生态管理中要重点考虑草本植被入侵给土壤肥力带来的影响。 相似文献
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利用我国北极黄河站所在地,德国Koldewey站1993-2003年的资料,对新奥尔松地区的地表辐射特征进行了初步分析。结果表明,由于云的影响,新奥尔松极昼期间的日照百分率仅为32.2%。暖季由于下垫面地表冰雪融化,地表反射率迅速减小,地面吸收辐射和地面有效辐射都迅速增大。全年累计的净辐射为正值;暖季是接受太阳辐射能的主要时段,寒季接受的太阳辐射能极少。虽近10年来新奥尔松地区的气温增加十分显著,但各辐射量的变化趋势不明显。地表辐射实测值与同期NCEP/NCAR相邻格点逐日资料的比较表明,NCEP资料对各辐射项模拟的精度不高。 相似文献
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陆龙骅 《中国气象科学研究院年报》2007,(1):17-18
国家自然科学基金重点项目"北极苔原和海冰地区边界层物理过程的观测研究",通过了国家自然科学基金委员会地球科学部组织的专家组的质疑、答辩和验收. 相似文献
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三江平原地区毛果苔草群落的研究 总被引:4,自引:0,他引:4
毛果苔草群落是三江平原地区沼泽植被的主要类型,分布广,面积大。毛果苔草不但是群落的优势种,而且是形成泥炭的最主要的造炭植物。本文主要探讨毛果苔草的基本特征:①生物学生态学特性;②毛果苔草和泥炭形成关系;③毛果苔草的养分和化学元素特性;④毛果苔草群落学特征。并对毛果苔草群落的演替过程和利用保护问题也进行了探讨。 相似文献
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Documenting morphological features of modem pollen is fundamental for the identification of fossil pollen, which will assist researchers to reconstruct the vegetation and climate of a particular geologic period. This paper presents the pollen morphol- ogy of 20 species of tundra plants from the high Arctic of Ny-Alesund, Svalbard, using light and scanning electron microscopy. The plants used in this study belong to 12 families: Brassicaceae, Caryophyllaceae, Cyperaceae, Ericaceae, Juncaceae, Papav- eraceae, Poaceae, Polygonaceae, Ranunculaceae, Rosaceae, Salicaceae, and Scrophulariaceae. Pollen grain shapes included: spher- oidal, subprolate, and prolate. Variable apertural patterns ranged from 2-syncolpate, 3-colpate, 3-(-4)-colpate, 3-(-5)-colpate, 3-colporate, 5-poroid, ulcerate, ulcus to pantoporate. Exine ornamentations comprised psilate, striate-perforate, reticulate, mi- croechinate, microechinate-perforate, scabrate, granulate, and granulate-perforate. This study provided a useful reference for com- parative studies of fossil pollen and for the reconstruction of paleovegetation and paleoclimate in Svalbard region of Arctic. 相似文献
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以南极阿德雷岛苔原沼泽为研究区域,2016年12月至2017年1月南极夏季期间观测研究了温室气体CH_4、CO_2和N_2O通量的变化规律及其对环境因子的响应关系。结果表明:光照条件下干旱苔原沼泽表现为CH_4吸收,通量为(–5.4±4.3)μg CH_4·m~(–2)·h~(–1),半干旱苔原与淹水苔原沼泽表现为净排放;三个类型苔原沼泽观测点均表现为N_2O净吸收,最高吸收通量出现在淹水苔原,为(–2.6±2.4)μg N_2O·m~(–2)·h~(–1);黑暗条件下苔原沼泽一致表现为CH_4和N_2O净排放。光照与土壤水分减少增加了苔原CH_4有氧氧化吸收,同时促进了反硝化作用对N_2O的还原转化。观测期间所有观测点均表现为CO_2的汇,最高CO_2净交换量与光合作用强度都出现在淹水苔原区,分别为(–40.1±17.6)μg CO_2·m~(–2)·h~(–1)和(91.2±26.5) mg CO_2·m~(–2)·h~(–1);而最高苔原沼泽呼吸速率出现在干旱苔原观测点,为(73.1±17.6)μg CO_2·m~(–2)·h~(–1)。夏季适宜的温度、降水条件促进了苔原植被的光合作用,增加了苔原沼泽CO_2吸收量。CO_2、N_2O、CH_4通量随时间变化的相互关系规律不显著(P0.05),但在降水与温度波动下,N_2O与CH_4通量都随CO_2通量呈现相似的波动。三种温室气体与各种环境因子之间的响应关系值得进一步研究;不同光照条件对CH_4、N_2O排放量的估算有重要影响。 相似文献
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氮沉降对长白山苔原植被影响的试验研究 总被引:2,自引:0,他引:2
为了探讨氮沉降增加对苔原植被的影响,特别是对草本植物侵入苔原的作用,在长白山高山苔原带进行了连续4 a的人工氮沉降模拟实验,测定3种设定的氮沉降水平下牛皮杜鹃(Rhododendron chrysanthum)、笃斯越橘(Vaccinium uliginosum)和小叶章(Deyeuxia angustifolia)的生长状况和群落结构变化。研究结果表明:1与牛皮杜鹃、笃斯越橘等苔原本地种相比,氮沉降量增加更有利于侵入的小叶章生长;牛皮杜鹃生长对氮沉降量变化响应微弱,氮沉降量增加能明显抑制笃斯越橘的生长。2无小叶章侵入的牛皮杜鹃和笃斯越橘斑块在不同氮沉降量条件下,群落结构变化不明显,氮沉降增加不是小叶章侵入苔原带的直接原因。3在小叶章侵入牛皮杜鹃和笃斯越橘斑块后,氮沉降量增加强化了小叶章的竞争能力,逐渐取代牛皮杜鹃或笃斯越橘,成为优势种,推动高山苔原向高山草甸转化。因此,随着氮沉降量的不断增加,长白山苔原带将面临退化与草甸化。 相似文献
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植被和气候对阿拉斯加和加拿大北部北极苔原地区多年冻土活动层厚度的影响 总被引:2,自引:4,他引:2
The active layer is the top layer of permafrost soils that thaws during the summer season due to increased ambient temperatures and solar radiation inputs. This layer is important because almost all biological activity takes place there luring the summer. The depth of active layer thaw is influenced by climatic conditions. Vegetation has also been found to have a strong impact on active layer thaw, because it can intercept incoming radiation, thereby insulating the soil from ambient conditions. In order to look at the role of vegetation and climate on active layer thaw, we measured thaw depth and the Normalized Difference Vegetation Index (NDVI; a proxy for aboveground plant biomass) along a latitudinal temperature gradient in arctic Alaska and Canada. At each site several measurements of thaw and NDVI were taken in areas with high amounts of vegetation and areas with little to no vegetation. Results show that the warmest regions, which had the greatest levels of NDVI, had relatively shallow thaw depths, and the coldest regions, which had the lowest levels of NDVI, also had relatively shallow thaw depths. The intermediate regions, which had moderate levels of NDVI and air temperature, had the greatest depth of thaw. These results indicate that temperature and vegetation interact to control the depth of the active layer across a range of arctic ecosystems. By developing a relationship to explain thaw depth through NDVI and temperature or latitude, the possibility exists to extrapolate thaw depth over large scales via remote sensing applications. 相似文献