{"title":"海拔变化对尼泊尔东部小檗林土壤特征的影响","authors":"K. Bhattarai, T. Mandal","doi":"10.3126/ON.V14I1.16438","DOIUrl":null,"url":null,"abstract":"Physico-chemical properties of forest soil depends on a variety of natural factors, the most important are variation in altitude, vegetation cover and microbial activities. The present study was conducted to understand the effect of variation in altitude in the soil characteristics in Tarai Sal forest (TSF) and Hill Sal forest (HSF), of eastern Nepal. Soil samples were collected from thirty plots randomly in each forest from 0- 15cm and 15-30cm depths in May 2012. Both forests had sandy loam type of soil texture. However, the percentage composition of soil particles varies within the forest sites. Soil moisture was higher in TSF. It was maximum in the rainy season in both forests. Water holding capacity was slightly higher in TSF. Bulk density was higher in TSF and it increased with soil depth in both forests. The pH value was slightly higher in HSF than TSF however, the value increased in lower soil depth in both forest stands. In the upper soil layer (0-15cm) soil organic carbon (SOC) was higher in HSF (2.09%) than TSF (1.6%). Similarly, total nitrogen (TN) was also higher in HSF (0.173%) than in TSF (0.129%) while total phosphorus (TP) was more or less same in both forest stands. The potassium (K) a soil extractable nutrient also showed higher value in HSF (312.13 µg g -1 ) than TSF (238.47 µg g -1 ). The values of SOC, TN, TP and K decreased in lower depth (15-30cm) in both forest stands. In conclusion, variation in altitude causes difference in the microclimatic condition which resulted into the alternation in soil characteristics. This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License .","PeriodicalId":19905,"journal":{"name":"Our Nature","volume":"61 1","pages":"30-38"},"PeriodicalIF":0.0000,"publicationDate":"2017-01-23","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"8","resultStr":"{\"title\":\"Effect of altitudinal variation on the soil characteristics in sal (Shorea robusta gaertn.) forests of eastern Nepal\",\"authors\":\"K. Bhattarai, T. Mandal\",\"doi\":\"10.3126/ON.V14I1.16438\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Physico-chemical properties of forest soil depends on a variety of natural factors, the most important are variation in altitude, vegetation cover and microbial activities. The present study was conducted to understand the effect of variation in altitude in the soil characteristics in Tarai Sal forest (TSF) and Hill Sal forest (HSF), of eastern Nepal. Soil samples were collected from thirty plots randomly in each forest from 0- 15cm and 15-30cm depths in May 2012. Both forests had sandy loam type of soil texture. However, the percentage composition of soil particles varies within the forest sites. Soil moisture was higher in TSF. It was maximum in the rainy season in both forests. Water holding capacity was slightly higher in TSF. Bulk density was higher in TSF and it increased with soil depth in both forests. The pH value was slightly higher in HSF than TSF however, the value increased in lower soil depth in both forest stands. In the upper soil layer (0-15cm) soil organic carbon (SOC) was higher in HSF (2.09%) than TSF (1.6%). Similarly, total nitrogen (TN) was also higher in HSF (0.173%) than in TSF (0.129%) while total phosphorus (TP) was more or less same in both forest stands. The potassium (K) a soil extractable nutrient also showed higher value in HSF (312.13 µg g -1 ) than TSF (238.47 µg g -1 ). The values of SOC, TN, TP and K decreased in lower depth (15-30cm) in both forest stands. In conclusion, variation in altitude causes difference in the microclimatic condition which resulted into the alternation in soil characteristics. 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引用次数: 8
摘要
森林土壤的理化性质取决于多种自然因素,其中最重要的是海拔、植被覆盖和微生物活动的变化。本研究旨在了解海拔变化对尼泊尔东部塔拉萨尔森林(TSF)和丘陵萨尔森林(HSF)土壤特征的影响。2012年5月,在每个森林中随机抽取30个样地,取样深度分别为0 ~ 15cm和15 ~ 30cm。两种森林的土壤质地均为砂壤土类型。然而,土壤颗粒组成的百分比在不同的森林地点有所不同。TSF土壤湿度较高。这两种森林在雨季都是最大的。TSF的持水量略高。两种森林的容重均随土壤深度的增加而增加。两种林分土壤的pH值均在土壤深度较低的林分土壤中升高。在土壤表层(0 ~ 15cm),土壤有机碳(SOC)在高土壤层(2.09%)高于高土壤层(1.6%)。同样,两种林分的总氮(TN)含量(0.173%)也高于总磷(0.129%),而总磷(TP)含量基本相同。土壤可提取养分钾(K)在HSF中的含量(312.13µg g -1)高于TSF(238.47µg g -1)。两种林分土壤有机碳、全氮、全磷和全钾在15 ~ 30cm深度均呈下降趋势。综上所述,海拔的变化导致了小气候条件的差异,从而导致了土壤特征的变化。本作品采用知识共享署名-非商业4.0国际许可协议。
Effect of altitudinal variation on the soil characteristics in sal (Shorea robusta gaertn.) forests of eastern Nepal
Physico-chemical properties of forest soil depends on a variety of natural factors, the most important are variation in altitude, vegetation cover and microbial activities. The present study was conducted to understand the effect of variation in altitude in the soil characteristics in Tarai Sal forest (TSF) and Hill Sal forest (HSF), of eastern Nepal. Soil samples were collected from thirty plots randomly in each forest from 0- 15cm and 15-30cm depths in May 2012. Both forests had sandy loam type of soil texture. However, the percentage composition of soil particles varies within the forest sites. Soil moisture was higher in TSF. It was maximum in the rainy season in both forests. Water holding capacity was slightly higher in TSF. Bulk density was higher in TSF and it increased with soil depth in both forests. The pH value was slightly higher in HSF than TSF however, the value increased in lower soil depth in both forest stands. In the upper soil layer (0-15cm) soil organic carbon (SOC) was higher in HSF (2.09%) than TSF (1.6%). Similarly, total nitrogen (TN) was also higher in HSF (0.173%) than in TSF (0.129%) while total phosphorus (TP) was more or less same in both forest stands. The potassium (K) a soil extractable nutrient also showed higher value in HSF (312.13 µg g -1 ) than TSF (238.47 µg g -1 ). The values of SOC, TN, TP and K decreased in lower depth (15-30cm) in both forest stands. In conclusion, variation in altitude causes difference in the microclimatic condition which resulted into the alternation in soil characteristics. This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License .
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