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41.
42.
VishwambharPrasadSati 《山地科学学报》2005,2(1):76-85
Agricultural practices are the main stay of the people of Uttranchal. Out of the total population,more than 75% people are engaged either with the main occupation of agriculture or its allied practices,dominated by traditional subsistence cereal farming.Among them, the main crops are rice, wheat, millet,barley, all types of pulses, all types of oilseeds and almost all types of fruits. The crops, vegetables and fruits of all varieties are grown in the different climatic zones such as tropical, temperate, and cold because, the region is characterized by the different altitudinal zones elevated from 200 m to more than 8000m. As a result, different climates are found from hot tropical to sub temperate and chilly cold. Pulses varieties are grown extensively. Among vegetables,potato, onion, carrot, all types of green leaf vegetables,brinzal, pumpkin, ladyfinger, pea, gram, radish,ginger, garlic, etc, are grown widely. All fruit varieties are grown in the different altitudinal zones. The mainfruits are orange, malta (a big size of orange),elephant citrus, lemon and all other types of citrus,apple, stone fruits including peach and pears, manykinds of nuts, and the fruits which are grown in the low lying areas. In spite of feasible climatic conditions,agricultural dominant society, and availability of all types of crops, the production and productivity of these crops are very low, even they are unable to meet the grain-need of the people in Uttaranchal. Agricultural crops are grown almost in all the altitudinal zones -- from the low-lying areas, which are called ‘Ga. ngarh‘, to the highly elevated region,where the legendary term is given as ‘Danda‘. The growing seasons vary according to the heights. The present paper aims to discuss the agricultural practices including cropping season, cropping pattern,land use, production of cropsagricultural system in thisand ecological aspect of Himalayan state and suggest some measures for developing farming system,which could lead the sustainability, in terms of meeting the food grain needs of the people on the one hand and restoring the ecological balance on the other. 相似文献
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Research in the 1990s showed that bed-material transport rates could be estimated at the reach scale in both one-dimension and, over small spatial scales (10s of m), in two-dimensions. The limit on the latter was the spatial scale over which it was possible to obtain distributed data on morphological change. Here, we revisit the morphological method given progress in both topographical data acquisition and hydraulic modelling. The bed-material transport needed to conserve mass is calculated in both one and two dimensions for a 1600 m × 300 m Alpine braided river “laboratory”. High-resolution topographical data were acquired by laser scanning to quantify Digital Elevation Models (DEMs), and morphological changes caused by the flushing of the water intake were derived from repeated surveys. Based on DEMs of differences, 1D bed-material transport rates were calculated using the morphological method. Then, a 2D hydraulic model was combined with a topographic correction to route sediment through the network of braided channels and to obtain a spatially variable estimate of transport in both downstream and cross-stream directions. Monte Carlo simulation was applied to the routing model parameters, allowing identification of the most probable parameter values needed to minimize negative transport. The results show that within-section spatial compensation of erosion and deposition using the 1D treatment leads to substantial local errors in transport rate estimates, to a degree related to braiding intensity. Even though the 2D application showed that a large proportion of the total transport was actually concentrated into one main channel during the studied low flow event, the proportion of transport in secondary anabranches is substantial when the river starts braiding. Investigations of the effects of DEM resolution, competent flow duration and survey frequency related to ‘travelling bedload’ and sequential erosion-deposition emphasized the critical importance of careful data collection in the application of the morphological method. © 2019 John Wiley & Sons, Ltd. 相似文献
45.
近年来气候变化对秦岭植被的影响已得到众多研究的证实,牛背梁作为秦岭东部主脊和国家级自然保护区,该地区亚高山林线植被对气候变化的生态响应现状尚未得到广泛关注。依照树木年代学原理,进行响应分析并建立回归模型,探讨了牛背梁林线关键树种巴山冷杉(Abies fargesii)年表特征及对气候响应的海拔分异特征。结果表明:(1)随海拔升高,树木生长对气候的敏感性逐渐上升,但轮宽年表的同步性和信号强度呈先下降后上升的特点。(2)不同海拔树轮宽度年表的气候响应结果基本一致,对气温的敏感性均较降水强,敏感时段为当年2~8月,差异主要体现在,高海拔树木受生长季末期8月气温的影响较重,中海拔树木受生长季前期3~4月降水和上年冬季10~11月气温的促进,而低海拔树木受初春1~2月降水的限制作用明显。(3)对比分析低、中、高海拔3个回归模型中显著因子的变化趋势,发现气候变化可以促进巴山冷杉生长季的提前,但不同海拔树木的生长动态各异,说明研究区林线不同海拔巴山冷杉生长对全球变化可能具有不同的响应机制。 相似文献
46.
Hongchang Hu Genxu Wang Guangsheng Liu Taibing Li Dongxing Ren Yibo Wang Huiyan Cheng Junfeng Wang 《Environmental Geology》2009,57(6):1391-1397
The alpine ecosystem is very sensitive to environmental change due to global and local disturbances. The alpine ecosystem
degradation, characterized by reducing vegetation coverage or biomass, has been occurring in the Qinghai–Tibet Plateau, which
alters local energy balance, and water and biochemical cycles. However, detailed characterization of the ecosystem degradation
effect is lack in literature. In this study, the impact of alpine ecosystem degradation on soil temperature for seasonal frozen
soil and permafrost are examined. The vegetation coverage is used to indicate the degree of ecosystems degradation. Daily
soil temperature is monitored at different depths for different vegetation coverage, for both permafrost and seasonal frozen
soils. Results show that under the insulating effort of the vegetation, the freezing and thawing process become quicker and
steeper, and the start of the freezing and thawing process moves up due to the insulating effort of the vegetation. The influence
of vegetation coverage on the freezing process is more evident than the thawing process; with the decrease of vegetation coverage,
the integral of frozen depth increases for seasonal frozen soil, but is vice versa for permafrost. 相似文献
47.
To understand and predict the role of soils in changes in alpine meadow ecosystems during climate warming, soil monoliths,
extending from the surface to the deepest roots, were collected from Carex moorcroftii, Kobresia humilis, mixed grass, and Kobresia pygmaea alpine meadows in the hinterland of the Tibetan Plateau, China. The monoliths were used to measure the distribution with
depth of biomass, soil grain size, soil nutrient levels, and soil moisture. With the exception of the K. pygmaea meadow, the percentages of gravel and coarse sand in the soils were high, ranging from 37.7 to 57.8% for gravel, and from
18.7 to 27.9% for coarse sand. The texture was finest in the upper 10 cm soil layer, and generally became coarser with increasing
depth. Soil nutrients were concentrated in the top 15 cm soil layer, especially in the top 10 cm. Soil water content was low,
ranging from 3 to 28.4%. Most of the subsurface biomass was in the top 10 cm, with concentrations of 79.8% in the K. humilis meadow, 77.6% in the mixed grass meadow, and 62.3% in the C. moorcroftii meadow. Owing to deeper root penetration, the concentration of subsurface biomass in the upper 10 cm of K. pygmaea soil was only 41.7%. The subsurface biomass content decreased exponentially with depth; this is attributed to the increase
in grain size and decrease in soil nutrient levels with depth. Soil water is not a primary factor influencing the vertical
and spatial distribution of subsurface biomass in the study area. The lack of fine material and of soil nutrients resulted
in low surficial and subsurface biomass everywhere. 相似文献
48.
In this study,effects of elevated air temperatures on thermal and hydrologic process of the shallow soil in the active layer were investigated. Open-top chambers(OTCs)were utilized to increase air temperatures 1-2℃ in OTC-1 and 3-5℃ in OTC-2 in the alpine meadow ecosystem on the Qinghai- Tibetan Plateau.Results show that the annual air temperatures under OTC-1 and OTC-2 were 1.21℃ and 3.62℃ higher than the Control,respectively.The entirely-frozen period of shallow soil in the active layer was shortened and the fully thawed period was prolonged with temperature increase.The maximum penetration depth and duration of the negative isotherm during the entirely-frozen period decreased, and soil freezing was retarded in the local scope of the soil profile when temperature increased.Meanwhile, the positive isotherm during the fully-thawed period increased,and the soil thawing was accelerated.Soil moisture under different manipulations decreased with the temperature increase at the same depth. During the early freezing period and the early fully- thawed period,the maximum soil moisture under the Control manipulation was at 0.2 m deep,whereas under OTC-1 and OTC-2 manipulations,the maximum soil moisture were at 0.4-0.5 m deep. These results indicate that elevated temperatures led to a decrease of the moisture in the surface soil.The coupled relationship between soil temperature and moisture was significantly affected by the temperature increase.During the freezing and thawing processes, the soil temperature and moisture under different manipulations fit the regression model given by the equationθV=a/{1+exp[b(TS+c)]}+d. 相似文献
49.
天山北坡高山林线分布的生态地理特征 总被引:1,自引:0,他引:1
综合利用多源遥感影像和实地勘察资料识别天山北坡高山林线分布格局,结合区域气象数据和土壤理化性质,分析天山北坡林线分布的生态地理特征。结果表明:①天山北坡林线分布高度大约在2 600~2 850 m,从西向东林线分布高度呈上升趋势,奇台至巴里坤段林线高度上升最为显著;伊犁河谷段与玛纳斯段林线垂直宽度较宽。②影响天山北坡林线分布高度的关键气候因子为生长季温度(如年生物学温度3.35 ℃,最热月均温10.49 ℃,生长季均温8.26 ℃),特别是年生物学温度,能较好的指示天山北坡高山林线分布位置,且各气候指标均在全国均值范围之内,而影响巴音布鲁克地区森林发育的主要原因为冬季低温干旱。③伊犁林线过渡带和玛纳斯林线过渡带有机质、全氮及全磷的含量最高;酸碱性大致以阜康林线为界,向西呈酸性,向东呈碱性;土壤营养物质主要分布于表层(0~10 cm),深层(30~80 cm)含量低且变化不显著,具有明显的“表聚现象”;下层土壤pH值从西向东逐渐由弱酸性向弱碱性过渡;电导率空间变异性较强,各层变化特征不显著。 相似文献
50.
Lucien von Gunten Oliver Heiri Christian Bigler Jacqueline van Leeuwen Carlo Casty André F. Lotter Michael Sturm 《Journal of Paleolimnology》2008,39(3):283-299
We analysed a 42 cm long sediment record from Lej da la Tscheppa, a high-altitude lake (2,616 m a.s.l.) in the Upper Engadine
valley (Switzerland) for subfossil diatoms, chironomids and pollen. The chronology of the top 21 cm of the record was established
using 210Pb analysis using a constant-rate-of-supply model, and validated with 137Cs measurements and the content of spheroidal carbonaceous particles. A tentative chronology for the lower part of the core
was obtained through extrapolation of the sedimentation rates in the uppermost part of the record. Pollen assemblages in the
record reflect regional changes in forestation and land-use patterns in the Upper Engadine valley and show no evidence of
significant local human activity in the lake’s catchment. Diatom assemblages record a distinct increase in planktonic taxa
since the early 19th century, suggesting a decrease in the duration of ice-cover. In contrast, chironomid assemblages remained
stable during a large part of the record. We applied an established chironomid-based July air temperature transfer function
and a newly developed diatom-based spring air temperature transfer function to reconstruct past seasonal air temperature changes
at Lej da la Tscheppa. The reconstructions indicate a diatom-inferred warming trend in spring temperatures during the past
ca. 400 years, whereas chironomid-inferred summer temperatures suggest a slight cooling trend. These biota-based reconstructions
are in good agreement with the centennial-scale temperature trend in an independent reconstruction of regional temperatures
in the Upper Engadine region based on instrumental records and documentary proxy evidence from the Alps. Our results suggest
that, in high-altitude lakes, independent chironomid- and diatom-based seasonal temperature reconstruction is possible and
can be successfully used to track seasonal temperature trends. 相似文献