| 1. | Herb insect biodiversity in subalpine meadow of northwestern yunnan , china
滇西北亚高山草甸草丛昆虫多样性研究
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| 2. | Disturbances and subalpine forest structure in giant panda ' s habitat
大熊猫栖息地亚高山针叶林结构和干扰关系研究
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| 3. | Population genetic structure and differentiation of anthoxanthum a lpinum in the subalpine - alpine ecocline of swiss alps
亚高山过渡区高山黄花茅的群体遗传结构和分化研究
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| 4. | Subalpine is the coumtry of cold - warm conifer forest which bistributing the midst of the elevation between 2200m to 4200m
其中的微生物及与微生物和土壤肥力密切相关的土壤酶活性必然有其独特性。
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| 5. | Effects of fargesia nitida on species diversity and trees regeneration in different forest cycles of subalpine forest in wolong nature reserve
华西箭竹对卧龙亚高山森林不同演替阶段物种多样性与乔木更新的影响
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| 6. | Although cliff - nesting golden eagles are most common , bald eagles like the adult perched on this subalpine fir also occur , especially along the edges of rivers and lakes
尽管傍悬崖为巢的金雕更为常见,但如图中所示,栖息在亚高山带冷杉木上的成年白头鹰也并不罕见,尤其在河流、湖泊的边缘地带。
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| 7. | The paper establishes a comprehensive evaluation model of meadow resources using the fuzzy mathematical method , and then applies the model to the dynamic evaluation of subalpine meadow in huapo , qinyuan county , shanxi
摘要应用多层次模糊综合评价方法建立草地资源的综合评价模型,对山西沁源县华城乡亚高山草甸植被利用进行动态评价。
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| 8. | Forest is one of the most important parts on our planet , and the subalpine coniferous forests in western sichuan are a principal part of natural protection projection in southwestern china and important ecological screen to the upper reaches of the yangtze river
川西亚高山林区是长江上游重要的水源涵养和水土保持区,被誉为四川盆地和长江干流重要的“生态屏障”和中国半壁江山的“水塔” 。
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| 9. | A wealth of bird life and wildlife including endemic golden monkey , red panda , leopard , black bear and takin can also be seen . this area has been selected as a representative long - term ecological study site of subalpine forest ecosystems in southwest of china
另外,对川西地域独特的生态环境中土壤微生物、土壤养分及凋落物分解动态等生态因子和生态过程进行研究,可以丰富和拓展我国的土壤生态学的研究领域,发展土壤生态学的理论体系。
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| 10. | Based on the principle of significant effect of soil fertility factors on forest growth , soil physical factors ( natural water content , bulk density , total porosity , capillary porosity , aggregate degree , coarse silt and physical clay ) , chemical factors ( om . total n , alkali - hytrolyzable n , total p , humus and ha / fa ) and biological factors ( urease , acidphosphotase , invertase and microbes ) were selected as evaluation index system of soil fertility . applying principal component analysis , soil ifi of subalpine coniferous forest was calculated
从土壤物理、化学、生物学三方面出发,建立了川西亚高山针叶林不同演替阶段土壤肥力评价指标体系,应用主成分分析,计算出不同演替阶段土壤肥力综合指标值( ifi ) ,各演替阶段大小顺序为: 10年生云杉林地迹地原始林地次生桦木林地30年生云杉林地20年生云杉林地50年生云杉林地60年生云杉林地40年生云杉林地。
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