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1.
准确评估大型能源基地矿业开发活动对区域植被生态系统影响具有重要的科学意义和实践价值。利用2000—2017年中分辨率成像光谱仪(MODIS)连续观测的生态系统参量,定量研究宁东煤炭基地开发建设以来的植被生态系统时空变化特征,分析矿业开发对植被生态系统的影响。结果表明,随着宁东煤炭基地开采活动的持续,区域植被生态系统的生产力及其与大气之间的水汽交换强度整体增强,归一化植被指数、总初级生产力、净初级净生产力和蒸散的年增长幅度分别为0.0053、5.10g·C/(m2·a-1)、4.10g·C/(m2·a-1)和6.62mm/a;这4种指标在空间像元上也以增长趋势为主,且未来多数像元有持续增强的特征,但生态系统的水分利用效率却在降低。空间分析表明,大尺度植被生态演变受矿业活动影响微弱,其主要受制于气候和区域性的生态治理工程。 相似文献
2.
Bing Wang Shengtian Yang Changwei Lü Jing Zhang Yujuan Wang 《Environmental Earth Sciences》2010,59(6):1337-1347
Green plants play an important role in energy flows and material cycles. The net primary productivity (NPP) reflects the capability
of vegetation to convert solar energy into photosynthate (fixed carbon). Understanding the factors that contribute to variations
in NPP is of key importance for improving the rock-desertification environment in karst areas. In this paper, the NPP model
(Light Use Efficiency model) is modified on the basis of remote sensing data [moderate resolution imaging spectroradiometer
(MODIS)], climate data and observed information. Then the model is employed to estimate the spatial–temporal variations of
NPP in the Guizhou Province, China. Finally, the NPP differences between karst area and non-karst area, and the relationships
between NPP and climate factors are analyzed. The results show that the NPP estimated using MODIS data are reasonable. The
mean NPP of territorial vegetation is 421.46 gC m−2 year−1; the NPP in the non-karst area is 13.3% higher than that in the karst area; the correlation degree between NPP and precipitation
is better in southeastern and western districts. 相似文献
3.
气候变化对中国北方荒漠草原植被的影响 总被引:70,自引:2,他引:70
气候变化对陆地生态系统的影响及其反馈是全球变化研究的焦点之一。利用气候变量实现对遥感植被指数所表示的植被绿度信息的模拟,可以尝试作为表达生物圈过去和未来状态的一种途径。利用1961-2000年的气温、降水和1983-1999年的NOAA/AVHRR资料,分析了中国北方地带性植被类型荒漠草原植被分布区的短尺度气候的年际和季节变化,及其对植被的影响。结果表明,过去40年中该区域年际气候变化表现为增温和降水波动。年NDVI的最大值(NDVImax)可以较好地反映气候的变化,过去17年中NDVImax出现的时间略有提前。综合分析NDVI、植被盖度、NPP、区域蒸散量、土壤含水量及其气候的年际变化,表明增温加剧了土壤干旱化,降水和土壤含水量仍是制约本区植被生长的根本原因。 相似文献
4.
5.
The Thornthwaite Memorial, Synthetic, and Carnegie Ames Stanford Approach (CASA) models, with inputs from SPOT-VGT-S10 NDVI
data, meteorological data (precipitation, temperature, solar radiation), and land use data were used to estimate the values
of net primary productivity (NPP) from 1999 to 2007 in China’s Shiyanghe Basin. The human appropriation of NPP, which represents
the difference between potential NPP predicted using the climatic models and actual NPP calculated using the CASA model, served
as the indicator of human intervention in the evolution of productivity of the land. Analysis showed that 78.9% (~9,172 km2) of the degradation occurring in the Shiyanghe Basin was caused by human activities versus 15.0% (~1,752 km2) that was caused by climatic factors, whereas 16.9% (~6,404.5 km2) of the vegetation restoration resulted from human activities versus 49.7% (~18,881 km2) that resulted from climate changes. Human activity played a key role in vegetation restoration in the central areas of the
basin and in determining land degradation in the southwestern and northeastern areas. In addition, climate significantly controlled
the vegetation restoration in the southwestern and northeastern areas and controlled land degradation in the central area. 相似文献
6.
1971—2000年中国陆地植被净初级生产力的模拟 总被引:4,自引:0,他引:4
利用植被与大气相互作用模式(AVIM),基于气象台站的观测资料模拟了1971—2000年中国陆地生态系统NPP的变化特征.结果表明:1971—2000年我国陆地植被年均NPP变化范围在0~987.67 gC·m-2·a-1,全国平均值为349.74 gC·m-2·a-1,30 a呈现出递增的变化趋势.对各类植被NPP的模拟显示,最近30 a我国热带雨林、落叶阔叶林以及有地被层的阔叶林的年均NPP减小,而混交林、常绿针叶林、落叶针叶林、有裸土的灌丛、草地以及作物的年均NPP均为增加趋势.由于采用了先进的农业技术,与自然条件下我国作物的年均NPP变化相比,我国实际的粮食单产在上述时期呈显著的增长,表明了人类活动对于我国陆地植被净初级生产力有着深刻的影响. 相似文献
7.
中国陆地生态系统近 2 0年碳空间动态的初步研究(英文) 总被引:4,自引:0,他引:4
陆地生态系统的净生产力 (NEP)是生态系统净初级生产力 (NPP)和异氧呼吸 (Rh)之差。在全球尺度上 ,反映NPP和Rh之差的NEP直接揭示陆地生态系统与大气系统之间的二氧化碳交换 ,即碳平衡 ,因此 ,意义重大。文章简短回顾了关于中国陆地生态系统碳平衡的研究状况。由于植物根部呼吸很难从土壤表面总二氧化碳 (CO2 )通量中分开 ,因此直接从野外测量土壤异氧呼吸几乎是不可能的。虽然由于像诸如火灾、森林砍伐、土地利用变化及气候和大气变化等干扰因素 ,全球陆地生态系统很大程度上处于非平衡态 ,利用生态系统在平衡态时NPP等于Rh这一事实 ,我们估算了全球和中国森林生态系统的土壤异氧呼吸。利用遥感和地面的NPP观测数据 ,我们也估算了中国森林生态系统逐月的净生产力 (1982— 1998)。NPP的估算主要采用NOAA卫星AVHRR 8km的NDVI数据 ,结合地面气候数据完成。土壤呼吸是通过地面观测数据与温度和降水的关系得到的。在此基础上我们得到了中国陆地生态系统在过去近 2 0年中碳的动态变化 ,并给出了初步结果。 相似文献
8.
Assessing vegetation dynamics impacted by climate change in the southwestern karst region of China with AVHRR NDVI and AVHRR NPP time-series 总被引:6,自引:0,他引:6
The relationship between climate change and vegetation dynamics in the southwestern karst region of China has been identified
by recent studies. Based on previous researches and AVHRR (Advanced Very High Resolution Radiometer) GIMMS (Global Inventory
Monitoring and Modeling Studies) NDVI (Normalized Difference Vegetation Index) (1982–2003) and AVHRR GloPEM (Global Production
Efficiency Model) NPP (Net Primary Production) (1981–2000) datasets, vegetation dynamics impacted by climate change in the
southwestern karst region of China were assessed. The results show that: (1) since the early 1980s, both vegetation cover
density and net primary production have insignificant ascending tendencies. However, the inter-annual variation rates of vegetation
indexes have apparent spatial differentiations; (2) the correlation coefficients between the inter-annual variations of vegetation
indexes and the inter-annual variations of climate factors vary geographically; (3) as indicated by NDVI and NPP, various
vegetation types have different responses to climate change, and the annual mean temperature variation has more significant
impact on vegetation dynamics than the annual precipitation variation in the study area; (4) distribution laws of correlation
coefficients between the inter-annual variations of vegetation indexes and the inter-annual variations of climate factors
in different climate conditions are apparent. All these findings will enrich our knowledge of the natural forces which impact
the stability of the karst ecosystems and provide scientific basis for the management of the karst ecosystems. 相似文献
9.
For the last three decades, Northern China has been considered as one of the most sensitive areas regarding global environmental change. The integration of AVHRR GIMMS and MODIS NDVI data (1982–2011), of which for the overlapping period of 2000–2006 show good consistency, were used for characterizing land condition variability. The trends of standardized annually ΣNDVI, temperature, precipitation and PDSI were obtained using a linear regression model. The results showed that Northern China has a general increase in greenness for the period 1982–2011 (a = 0.05). Also, annually ΣNDVI is significantly correlated with temperature and precipitation data at the regional scale (p < 0.05), implying that temperature and precipitation are the dominant limiting factors for vegetation growth. Since the greening is not uniform, factors other than temperature and precipitation may contribute to greening in some areas, while the grassland and cropland ecosystem are becoming increasingly vulnerable to drought. The results of trend analysis indicate that greenness seems to be evident in most of the study areas. 相似文献
10.
Peijuan Wang Donghui Xie Yuyu Zhou Youhao E Qijiang Zhu 《Environmental Earth Sciences》2014,71(2):647-658
The ecological structure in the arid and semi-arid region of Northwest China with forest, grassland, agriculture, Gobi, and desert, is complex, vulnerable, and unstable. It is a challenging and sustaining job to keep the ecological structure and improve its ecological function. Net primary productivity (NPP) modeling can help to improve the understanding of the ecosystem, and therefore, improve ecological efficiency. The boreal ecosystem productivity simulator (BEPS) model provides the possibility of NPP modeling in terrestrial ecosystem, but it has some limitations for application in arid and semi-arid regions. In this paper, we improve the BEPS model, in terms of its water cycle by adding the processes of infiltration and surface runoff, to be applicable in arid and semi-arid regions. We model the NPP of forest, grass, and crop in Gansu Province as an experimental area in Northwest China in 2003 using the improved BEPS model, parameterized with moderate resolution remote sensing imageries and meteorological data. The modeled NPP using improved BEPS agrees better with the ground measurements in Qilian Mountain than that with original BEPS, with a higher R 2 of 0.746 and lower root mean square error (RMSE) of 46.53 gC m?2 compared to R 2 of 0.662 and RMSE of 60.19 gC m?2 from original BEPS. The modeled NPP of three vegetation types using improved BEPS shows evident differences compared to that using original BEPS, with the highest difference ratio of 9.21 % in forest and the lowest value of 4.29 % in crop. The difference ratios between different vegetation types lie on the dependence on natural water sources. The modeled NPP in five geographic zones using improved BEPS is higher than those with original BEPS, with higher difference ratio in dry zones and lower value in wet zones. 相似文献
11.
使用动态植被陆面模式AVIM2,以NCEP (National Centers for Environmental Prediction)再分析气象资料作为大气强迫场,模拟了1953-2004年全球陆地生态系统净初级生产力(NPP)和净生态系统生产力(NEP) 的空间分布及时间变化特征。结果得到,1953-2004年陆地生态系统NPP和NEP全球总量52 a的C平均值分别为65 Pg/a和1.2 Pg/a,NPP呈明显的上升趋势,而NEP的上升趋势不明显。虽然NPP和NEP的年代际增长趋势不同,但是在20世纪70年代中期,NPP和NEP的年代际变化都出现了一个明显的突变,突变点后的增长趋势都没有之前的增长趋势高。这是由于太平洋的年代际振荡(PDO)冷暖位相影响了厄尔尼诺与南方涛动(El Nin~o Southern Oscillation,ENSO)的年代际变化,对NPP和NEP的年代际变化也产生了重要的影响。1976年以前PDO处于冷位相年,增加了ENSO冷位相的强度和频率,使热带地区的气候偏凉爽湿润,从而利于NPP和NEP趋势增长,而1976年以后PDO进入暖位相年,El Nin~o发生频繁,赤道地区多为干热的气候异常,会降低NPP和NEP的增长趋势。 相似文献
12.
J.A.C. Barth H. Freitag H.J. Fowler A.P. Smith C. Ingle A. Karim 《Applied Geochemistry》2007,22(12):2684
The gradients between precipitation and runoff quantities as well as their water isotopes were used to establish a water balance in the Clyde River Basin (Scotland). This study serves as an example for a European extreme with poorly vegetated land cover and high annual rainfall and presents novel water stable isotope techniques to separate evaporation, interception and transpiration with annual averages of 0.029 km3 a−1, 0.220 km3 a−1 and 0.489 km3 a−1, respectively. Transpiration was further used to determine CO2 uptake of the entire basin and yielded an annual net primary production (NPP) of 352 × 109 g C (Giga gram) or 185.2 g C m−2. Compared to other temperate areas in the world, the Clyde Basin has only half the expected NPP. This lower value likely results from the type of vegetation cover, which consists mostly of grasslands. Subtracting the annual heterotrophic soil respiration flux (Rh) of 392 Gg (206.1 g C m−2 a−1) from the NPP yielded an annual Net Ecosystem Productivity (NEP) of −40 Gg C, thus showing the Clyde Watershed as a source of CO2 to the atmosphere. Despite the unusual character of the Clyde Watershed, the study shows that areas with predominant grass and scrub vegetation still have transpirational water losses that by far exceed those of pure evaporation and interception. This infers that vegetation can influence the continental water balances on time scales of years to decades. 相似文献
13.
14.
This study investigates the implications of past and future land use change for two ecosystem services provided by terrestrial vegetation: net primary production, which is the basis of the food chain, and modulation of climate through exchanges of energy, water, and momentum between the land surface and atmosphere. At the global scale, the most extensive land use change over the past several centuries occurred in temperate areas with cropland expansion in fertile areas. This type of conversion has generally increased net primary production due to water and nutrient inputs to mechanized agriculture and cooled surface climate due to increased albedo. In contrast, future land use change is projected to occur predominantly in the humid tropics, with large reductions in net primary production and a warming effect due to decreased transpiration. In the past, the effects of land use change on NPP and surface climate are not substantially outside the range of decadal-scale interannual variability. Future land use change alters these ecosystem services outside this range. The consequences of land use change in the coming decades are likely to be fundamentally different than in the past. 相似文献
15.
Joy B. Zedler 《Estuaries and Coasts》1980,3(2):122-131
This paper documents the role of salt marsh algal mats in the productivity of a southern California tidal wetland. The productivity of the mats, which are composed of filamentous bluegreen and green algae and diatoms, varies both temporally and spatially in relation to tidal inundation and overstory vegetation. The estimates of net primary productivity (NPP) were highest under the canopy ofJaumea carnosa (Less.) Gray (341 g C m?2 yr?1) at low elevation. Elsewhere, NPP appeared to be limited by low light (276 g C m?2 yr?1 underSpartina foliosa Trin.) and desiccation (185 g C m?2 yr?1 underBatis martima L. and 253 g C m?2 yr?1 underMonanthochloe littoralis Engelm). Algal NPP was from 0.8 to 1.4 times that of the vascular plant overstory NPP. It is hypothesized that the arid environment of southern California and resulting hypersaline soils reduce vascular plant cover, which leads to high algal productivity. 相似文献
16.
James E. Kaldy Christopher P. Onuf Peter M. Eldridge Luis A. Cifuentes 《Estuaries and Coasts》2002,25(4):528-539
It has been assumed that because seagrasses dominate macrophyte biomass in many estuaries they also dominate primary production. We tested this assumption by developing three carbon budgets to examine the contribution of autotrophic components to the total ecosystem net primary production (TENPP) of Lower Laguna Madre, Texas. The first budget coupled average photosynthetic parameters with average daily irradiance to calculate daily production. The second budget used average photosynthetic parameters and hourly in situ irradiance to estimate productivity. The third budget integrated temperature-adjusted photosynthetic parameters (using Q10=2) and hourly in situ irradiance to estimate productivity. For each budget TENPP was calculated by integrating production from each autotroph based on the producers’ areal distribution within the entire Lower Laguna Madre. All budgets indicated that macroalgae account for 33–42% of TENPP and seagrasses consistently accounted for about 33–38%. The contribution by phytoplankton was consistently about 15–20%, and the contribution from the benthic microalgae varied between 8% and 36% of TENPP, although this may have been underestimated due to our exclusion of the within bed microphytobenthos component. The water column over the seagrass beds was net heterotrophic and consequently was a carbon sink consuming between 5% and 22% of TENPP, TENPP ranged between 5.41×1010 and 2.53×1011 g C yr−1, depending on which budget was used. The simplest, most idealized budget predicted the highest TENPP, while the more realistic budgets predicted lower values. Annual production rates estimated using the third budget forHalodule urightii andThalassia testudinum compare well with field data. Macroalgae and microalgae contribute 50–60% of TENPP, and seagrass may be more important as three-dimensional habitat (i.e., structure) than as a source of organic carbon to the water column in Lower Laguna Madre. 相似文献
17.
The Hanjiang River Basin is the source area of the Middle Route Project of the South-to-North Water Diversion Project, and the vegetation coverage in this basin directly affects the quality of the ecological environment. This study is based on long time series of Moderate Resolution Imaging Spectroradiometer (MODIS) Normalized Difference Vegetation Index (NDVI) data synthesized over 16 days from 2000 to 2016 in the Hanjiang River Basin. Major climatic data (temperature and rainfall) and topographic data (elevation, slope, and aspect) are employed to analyze the driving forces of NDVI changes. The results demonstrate the following: for the 2000–2016 period, the average annual NDVI is 0.823, with a change trend of 0.025 year?1. The overall NDVI upstream is higher than that downstream. The average annual value of NDVI upstream is 0.844, with a change trend of 0.036 year?1, and that of downstream is 0.799, with a change trend of 0.022 year?1. The spatial distribution of NDVI was significantly increased in the area around the upstream section of the river and near the Danjiangkou Reservoir, and the distribution of NDVI around the central city was significantly reduced. The NDVI was positively correlated with temperature and rainfall, and the impacts differed among different regions. At elevations below 2000 m, the NDVI shows an increasing trend with increasing elevation, and at elevations exceeding 2000 m, the NDVI is negatively correlated with elevation. Slope is positively correlated with the NDVI. The influence of aspect on the NDVI was small. 相似文献
18.
本文应用Holdridge的生命地带分类系统进行我国的植被-气候分类。计算结果所划分的生命地带与我国的植被分区有较好的对应性。该系统与计算净第一性生产力(NPP)的chikugo模型结合尚可推算各地带的潜在净第一性生产力。文中对CO2倍增条件下的我国植被演变趋势和生产力变化做了预测,并采用GIS做了图形分析和显示。 相似文献
19.
We summarize rates of metabolism and major sources and sinks of organic carbon in the 148-k long, tidally influenced, freshwater Hudson River. The river is strongly heterotrophic, with respiration exceeding gross primary production (GPP). The P:R ration averages 0.57 (defined as the ratio of GPP to total ecosystem respiration) if only the aquatic portion of the ecosystem is considered and 0.70 if the emergent marshes are also included. Gross primary production (GPP) by photoplankton averages approximately 300 g C m?2 yr?1 and is an order of magnitude greater than that by submersed macrophytes. However, the river is deep, well mixed, and turbid, and phytoplankton spend a majority of their time in the dark. As a result, respiration by living phytoplankton is extremely high and net primary production (NPP) by phytoplankton is estimated to be only some 6% of GPP. NPP by phytoplankton and submersed macrophytes are roughly equal (approximately 20 g C m?2 yr?1 each) when averaged over the river. Emergent marshes are quite productive, but probably less than 16 g C m?2 yr?1 enters the aquatic portion of the ecosystem from these marshes. Heterotrophic respiration and secondary production in the river are driven primarily by allochthonous inputs of organic matter from terrestrial sources. Rates of metabolism vary along the river, with depth being a critical controlling factor. The P:R ratio for the aquatic portion of the ecosystem varies from 1 in the mid-river to 0.2 in the deeper waters. NPP is actually negative in the downstream waters where average depths are greater since phytoplankton respiration exceeds GPP there; the positive rates of NPP occurring upriver support a downstream advection of phytoplankton to the deeper waters where this C is largely respired away by the algae themselves. This autotrophic respiration contributes significantly to oxygen depletion in the deeper waters of the Hudson. The tidally influenced freshwater Hudson largely fits the patterns predicted by the river continuum model for larger rivers. However, we suggest that the continuum model needs to more clearly distinguish between GPP and NPP and should include the importance of autotrophic respiration by phytoplankton that are advected along a river. The organic carbon budget for the tidally influenced freshwater Hudson is balanced to within a few percent. Respiration (54%) and downstream advection into the saline estuary (41%) are the major losses of organic carbon from the ecosystem. Allochthonous inputs from nonpoint sources on land (61%) and GPP by phytoplankton (28%) are the major sources to the system. Agricultural erosion is the major source of allochthonous inputs. Since agricultural land use increased dramatically in the last century, and has fallen in this century, the carbon cycle of the tidally influenced freshwater Hudson River has probably changed markedly over time. Before human disturbance, the Hudson was probably a less heterotrophic system and may even have been autotrophic, with gross primary production exceeding ecosystem respiration. 相似文献
20.
基于遥感和地理信息系统技术,利用NOAA-AVHRR数据对我国最近18年(1982~1999)来的植被覆盖的动态变化进行了分析.结果表明:我国植被覆盖的动态变化受气候波动的影响十分显著,并且这种变化的区域性差异明显.18年来,NDVI减小的地区主要分布在西北地区和青藏高原,而NDVI增加的地区主要发生在东部地区;20世纪80年代和90年代的NDVI变化趋势之间存在较大差异;90年代NDVI减小的区域明显地比80年代增加,特别是西北干旱地区NDVI的下降趋势明显.我国珠江三角洲和长江三角洲地区是18年来植被覆盖下降趋势最明显的地区,表明快速城市化的影响. 相似文献