Ecosystem-dependent responses of vegetation coverage on the Tibetan Plateau to climate factors and their lag periods

The spatiotemporal variation characteristics of the Normalized Difference Vegetation Index (NDVI) and its climate response patterns are of significance in deepening our understanding of regional vegetation and climate change. The response of vegetation to climate factors varies spatially and may have lag periods. In this paper, we studied the spatiotemporal responses of vegetation to climatic factors on an ecosystem-dependent scale using GIMMS NDVI3g data and climatic parameters. Pure pixels with a single vegetation type were firstly extracted to reduce the influence of mixed vegetation types. Then, a lag correlation analysis was used to explore the lag effects of climatic parameters affecting NDVI. Finally, the stepwise regression method was adopted to calculate the regression equation for NDVI and meteorological data with the consideration of effect lag times. The results show that precipitation has significant lag effects on vegetation. Temperature is the main climatic factor that affects most vegetation types at the start of growing season. At the end of growing season, the temperate desert, temperate steppe, and temperate desert steppe are greatly affected by precipitation. Moreover, the alpine steppe, alpine desert, alpine meadow, and alpine sparse vegetation are greatly affected by temperature. The needleleaf forest, subalpine scrub, and broadleaf evergreen forest are sensitive to sunshine percentage during almost the whole growing season. These findings could contribute to a better understanding of the drivers and mechanisms of vegetation degradation on the Tibetan Plateau.

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Interrelation among climate factors, snow cover, grassland vegetation, and lake in the Nam Co basin of the Tibetan Plateau

Journal of Applied Remote Sensing ◽

10.1117/1.jrs.8.084694 ◽

2014 ◽

Vol 8 (1) ◽

pp. 084694 ◽

Cited By ~ 8

Author(s):

Siyu Chen ◽

Tiangang Liang ◽

Hongjie Xie ◽

Qisheng Feng ◽

Xiaodong Huang ◽

...

Keyword(s):

Tibetan Plateau ◽

Snow Cover ◽

The Tibetan Plateau ◽

Climate Factors ◽

Nam Co ◽

Grassland Vegetation ◽

Nam Co Basin

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Spatio-temporal variation of vegetation coverage over the Tibetan Plateau and its responses to climatic factors

Acta Ecologica Sinica ◽

10.5846/stxb201705270985 ◽

2018 ◽

Vol 38 (9) ◽

Cited By ~ 1

Author(s):

卓嘎 ZHUO Ga ◽

陈思蓉 CHEN Sirong ◽

周兵 ZHOU Bing

Keyword(s):

Tibetan Plateau ◽

Temporal Variation ◽

Climatic Factors ◽

Vegetation Coverage ◽

The Tibetan Plateau ◽

Spatio Temporal

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Dynamics and Drivers of the Alpine Timberline on Gongga Mountain of Tibetan Plateau-Adopted from the Otsu Method on Google Earth Engine

Remote Sensing ◽

10.3390/rs12162651 ◽

2020 ◽

Vol 12 (16) ◽

pp. 2651

Author(s):

Wen He ◽

Chongchong Ye ◽

Jian Sun ◽

Junnan Xiong ◽

Jinniu Wang ◽

...

Keyword(s):

Tibetan Plateau ◽

Vegetation Index ◽

Temporal Dynamics ◽

Google Earth ◽

Vegetation Coverage ◽

The Tibetan Plateau ◽

Gongga Mountain ◽

Alpine Timberline ◽

Otsu Method ◽

Google Earth Engine

The alpine timberline, an ecosystem ecotone, indicates climatic change and is tending to shift toward higher altitudes because of an increase in global warming. However, spatiotemporal variations of the alpine timberline are not consistent on a global scale. The abundant and highest alpine timberline, located on the Tibetan Plateau, is less subject to human activity and disturbance. Although many studies have investigated the alpine timberline on the Tibetan Plateau, large-scale monitoring of spatial-temporal dynamics and driving mechanisms of the alpine timberline remain uncertain and inaccurate. Hence, the Gongga Mountain on the southeastern Tibetan Plateau was chosen as the study area because of the most complete natural altitudinal zonation. We used the Otsu method on Google Earth Engine to extract the alpine timberline from 1987–2019 based on the normalized difference vegetation index (NDVI). Then, the alpine timberline spatiotemporal patterns and the effect of topography on alpine timberline distribution were explored. Four hillsides on the western Gongga Mountain were selected to examine the hillside differences and drivers of the alpine timberline based on principal component analysis (PCA) and multiple linear regression (MLR). The results indicated that the elevation range of alpine timberline was 3203–4889 m, and the vegetation coverage increased significantly (p < 0.01) near the alpine timberline ecotone on Gongga Mountain. Moreover, there was spatial heterogeneity in dynamics of alpine timberline, and some regions showed no regular trend in variations. The spatial pattern of the alpine timberline was generally high in the west, low in the east, and primarily distributed on 15–55° slopes. Besides, the drivers of the alpine timberline have the hillside differences, and the sunny and shady slopes possessed different driving factors. Thus, our results highlight the effects of topography and climate on the alpine timberline on different hillsides. These findings could provide a better approach to study the dynamics and formation of alpine timberlines.

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Spatial-Temporal Changes of Vegetation Coverage and Its Responses to Global Climate Changes in the Tibetan Plateau

2009 International Conference on Environmental Science and Information Application Technology ◽

10.1109/esiat.2009.284 ◽

2009 ◽

Author(s):

Liu Junhui ◽

Gao Jix

Keyword(s):

Tibetan Plateau ◽

Climate Changes ◽

Global Climate ◽

Temporal Changes ◽

Vegetation Coverage ◽

The Tibetan Plateau ◽

Global Climate Changes

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Alpine Cold Vegetation Response to Climate Change in the Western Nyainqentanglha Range in 1972–2009

The Scientific World JOURNAL ◽

10.1155/2014/514736 ◽

2014 ◽

Vol 2014 ◽

pp. 1-9 ◽

Cited By ~ 3

Author(s):

Xu Wang ◽

Ziyong Sun ◽

Ai-Guo Zhou

Keyword(s):

Climate Change ◽

Tibetan Plateau ◽

Remote Sensing Data ◽

Vegetation Coverage ◽

Ecosystem Change ◽

The Tibetan Plateau ◽

Mountain Areas ◽

Vegetation Fraction ◽

The Past ◽

Spectral Mixture

The Tibetan Plateau is regarded as one of the most climatic-sensitive regions all over the world. Long-term remote sensing data enable us to monitor spatial-temporal change in this area. The vegetation changes of the western Nyainqentanglha region were detected by using RS and GIS techniques. And the vegetation coverage was derived by the NDVI-SMA (spectral mixture analysis) methods. An incensement of vegetation was observed in the mountain areas during 1972–2009 with a mean vegetation coverage of 24.87%, 35.89%, and 42.88% in 30/09/1972, 14/09/1991, and 30/08/2009, respectively. The vegetation fraction increased by 18% in the period of 1972–2009. The bin with the elevation between 4400 and 5200 m had the highest vegetation coverage. This may be the result of the mountain effect. Alpine vegetation had a trend to increase and expand to higher altitudes with the climate change in the past 40 years. The variation appears to be associated with an increase in mean temperature of 0.05°C per year and an increase in precipitation of 1.83 mm per year in the growing season of the past four decades. The results provide further evidence of alpine ecosystem change due to climate change in the central Tibetan Plateau.

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Spatiotemporal variation and simulation of vegetation coverage in a typical degraded alpine meadow on the Tibetan Plateau

CATENA ◽

10.1016/j.catena.2020.104551 ◽

2020 ◽

Vol 190 ◽

pp. 104551 ◽

Cited By ~ 1

Author(s):

Xuchao Zhu ◽

Mingan Shao ◽

Xinzhai Tang ◽

Yin Liang

Keyword(s):

Tibetan Plateau ◽

Alpine Meadow ◽

Spatiotemporal Variation ◽

Vegetation Coverage ◽

The Tibetan Plateau

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Diversity And Distribution Of CO2-Fixing Microbial Community Along Elevation Gradients In Meadow Soils On The Tibetan Plateau

10.21203/rs.3.rs-1169276/v1 ◽

2021 ◽

Author(s):

Haiyan Feng ◽

Zhe Wang ◽

Pengli Jia ◽

Jingping Gai ◽

Baodong Chen ◽

...

Keyword(s):

Microbial Community ◽

Tibetan Plateau ◽

Environmental Factors ◽

Carbon Cycling ◽

Elevation Gradient ◽

Microbial Community Composition ◽

Vegetation Coverage ◽

The Tibetan Plateau ◽

Elevation Gradients ◽

Bisphosphate Carboxylase

Abstract Soil CO2-fixing microbes play a significant role in CO2-fixation in the terrestrial ecosystems, particularly in the Tibetan Plateau. To understand carbon sequestration by soil CO2-fixing microbes and the carbon cycling in alpine meadow soils, microbial diversity and their driving environmental factors were explored along an elevation gradient from 3900m to 5100m, on both east and west slopes of Mila Mountain region on the Tibetan Plateau. The CO2-fixing microbial communities were characterized by high-throughput sequencing targeting the cbbL gene，encoding the large subunit for the CO2-fixing protein ribulose 1, 5-bisphosphate carboxylase/oxygenase. The overall OTU abundance is concentrated at an altitude between 4300m~4900m. The species richness and distribution uniformity on the east slope is better than those on the west slope. In terms of microbial community composition, Proteobacteria is dominant, and the most abundant genera are Cupriavidus, Rhodobacter, Sulfurifustis and Thiobacillus. The CO2-fixing microbial community structure dramatically shifted along the elevation. It was jointly driven by vegetation coverage, soil moisture content, and soil organic carbon and soil particle size, and most environmental factors are positively correlated. Our results are helpful to understand the variation in soil microbial community and its role in soil carbon cycling along elevation gradients.

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A Long-Term Ecological Vulnerability Analysis of the Tibetan Region of Natural Conditions and Ecological Protection Programs

Sustainability ◽

10.3390/su131910598 ◽

2021 ◽

Vol 13 (19) ◽

pp. 10598

Author(s):

Yunxiao Jiang ◽

Yu Shi ◽

Rong Li ◽

Luo Guo

Keyword(s):

Land Use ◽

Tibetan Plateau ◽

Urban Areas ◽

Principal Component ◽

Vegetation Coverage ◽

The Tibetan Plateau ◽

Sudden Increase ◽

Landsat Images ◽

Environment Change ◽

Ecological Vulnerability

The combined impacts of drastic natural environment change and increasing human interference are making the uncertainty of the Tibetan Plateau’s ecological vulnerability the world’s largest. In this study, an ecological vulnerability index (EVI) of Tibet in the core area of the Tibetan Plateau was assessed using a selected set of ecological, social, and economic indicators and using a spatial principal component analysis (SPCA) to calculate their weights. The data included Landsat images and socio-economic data from 1990 to 2015 in five-year intervals. The results showed that the total EVI remained at a high vulnerability level, with drastic fluctuation from 1990 to 2000 (a peak in 1995, when there was a sudden increase in light vulnerability, which moved to extreme vulnerability in the next period), and minor fluctuations after 2000, gradually increasing from southeast to northwest. In addition, the spatial analysis showed a distinct positive correlation between the EVI and grassland area (0.33), land use degree (0.15), NDVI (0.14), livestock husbandry output, and a negative correlation in terms of desertification area. The artificial afforestation program (AAP) had a positive significant correlation with NDVI (R2 = 0.88), preventing the environment from becoming more vulnerable. The results provide practical information and suggestions for planners to improve the land use degree in urban areas and the vegetation coverage in pastoral regions of the Tibetan Plateau based on the spatial–temporal heterogeneity patterns of the EVI of Tibet.

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