Shuang Yi scite author profile

The Tibetan Plateau (TP), the highest and largest plateau in the world, with complex and competing cryospheric‐hydrologic‐geodynamic processes, is particularly sensitive to anthropogenic warming. The quantitative water mass budget in the TP is poorly known. Here we examine annual changes in lake area, level, and volume during 1970s–2015. We find that a complex pattern of lake volume changes during 1970s–2015: a slight decrease of −2.78 Gt yr−1 during 1970s–1995, followed by a rapid increase of 12.53 Gt yr−1 during 1996–2010, and then a recent deceleration (1.46 Gt yr−1) during 2011–2015. We then estimated the recent water mass budget for the Inner TP, 2003–2009, including changes in terrestrial water storage, lake volume, glacier mass, snow water equivalent (SWE), soil moisture, and permafrost. The dominant components of water mass budget, namely, changes in lake volume (7.72 ± 0.63 Gt yr−1) and groundwater storage (5.01 ± 1.59 Gt yr−1), increased at similar rates. We find that increased net precipitation contributes the majority of water supply (74%) for the lake volume increase, followed by glacier mass loss (13%), and ground ice melt due to permafrost degradation (12%). Other term such as SWE (1%) makes a relatively small contribution. These results suggest that the hydrologic cycle in the TP has intensified remarkably during recent decades.

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Response of Tibetan Plateau lakes to climate change: Trends, patterns, and mechanisms

Zhang

Yao

Xie

et al. 2020

Earth-Science Reviews

365

203

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Separable and Reversible Data Hiding in Encrypted Images Using Parametric Binary Tree Labeling

Yi¹,

Zhou²

2019

IEEE Trans. Multimedia

172

165

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Extensive and drastically different alpine lake changes on Asia's high plateaus during the past four decades

Zhang

Yao

Piao

et al. 2017

Geophysical Research Letters

254

158

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Asia's high plateaus are sensitive to climate change and have been experiencing rapid warming over the past few decades. We found 99 new lakes and extensive lake expansion on the Tibetan Plateau during the last four decades, 1970–2013, due to increased precipitation and cryospheric contributions to its water balance. This contrasts with disappearing lakes and drastic shrinkage of lake areas on the adjacent Mongolian Plateau: 208 lakes disappeared, and 75% of the remaining lakes have shrunk. We detected a statistically significant coincidental timing of lake area changes in both plateaus, associated with the climate regime shift that occurred during 1997/1998. This distinct change in 1997/1998 is thought to be driven by large‐scale atmospheric circulation changes in response to climate warming. Our findings reveal that these two adjacent plateaus have been changing in opposite directions in response to climate change. These findings shed light on the complex role of the regional climate and water cycles and provide useful information for ecological and water resource planning in these fragile landscapes.

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Medical image encryption using high-speed scrambling and pixel adaptive diffusion

Hua

Yi²,

Zhou³

2018

Signal Processing

289

160

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Shuang Yi

Lake volume and groundwater storage variations in Tibetan Plateau's endorheic basin

Response of Tibetan Plateau lakes to climate change: Trends, patterns, and mechanisms

Separable and Reversible Data Hiding in Encrypted Images Using Parametric Binary Tree Labeling

Extensive and drastically different alpine lake changes on Asia's high plateaus during the past four decades

Medical image encryption using high-speed scrambling and pixel adaptive diffusion

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