Add to ORKGThe phenology of plants is a comprehensive reflection of seasonal climatological and ecological conditions and may be used as an indicator of climate change (Thomas et al. 2000; Volker and Annette 2004; Li et al. 2005). Analysis was made of the dates of sprouting, flowering and defoliating of woody and herb plants observed on 24 Agricultural Meteorological Stations in Inner Mongolia, China from 1980 to 2010. To assess the potential future change data was analysed for the 2011 to 2050 period using the England Hadley Climate Centre scenario (Wei et al. 2012)
Autumn phenology plays a critical role in regulating climate-biosphere interactions. However, the cl...
Leaf phenology has been shown to be one of the most important indicators of the effects of climate c...
Using Ulmus pumila (Siberian Elm) leaf unfolding and leaf fall phenological data from 46 stations in...
The phenology of plants is a comprehensive reflection of seasonal climatological and ecological cond...
Over the past three decades, a generally increased air temperature occurred at most places in Inner ...
Global warming is widely believed to extend the length of plant growing season (LOS) through advanci...
As the global climate has changed, studies on the relationship between vegetation and climate have b...
The Xilingol grassland covers the region bounded by 41’09”–45’31” N and 111’14”–118’25” E. It is rep...
Because the dynamics of phenology in response to climate change may be diverse in different grasslan...
Vegetation phenology in temperate grasslands is highly sensitive to climate change. However, it is s...
By using the Global Inventory Modeling and Mapping Studies (GIMMS) third-generation normalized diffe...
The relationship between vegetation phenology and climate is a crucial topic in global change resear...
Key Project of National Natural Science Foundation of China (NSFC) 41030101;National Basic Research...
In light of the observed climate changes in recent decades over eastern China, we studied the change...
In order to understand past plant phenological responses to climate change in China (1963–2009), we ...
Autumn phenology plays a critical role in regulating climate-biosphere interactions. However, the cl...
Leaf phenology has been shown to be one of the most important indicators of the effects of climate c...
Using Ulmus pumila (Siberian Elm) leaf unfolding and leaf fall phenological data from 46 stations in...
The phenology of plants is a comprehensive reflection of seasonal climatological and ecological cond...
Over the past three decades, a generally increased air temperature occurred at most places in Inner ...
Global warming is widely believed to extend the length of plant growing season (LOS) through advanci...
As the global climate has changed, studies on the relationship between vegetation and climate have b...
The Xilingol grassland covers the region bounded by 41’09”–45’31” N and 111’14”–118’25” E. It is rep...
Because the dynamics of phenology in response to climate change may be diverse in different grasslan...
Vegetation phenology in temperate grasslands is highly sensitive to climate change. However, it is s...
By using the Global Inventory Modeling and Mapping Studies (GIMMS) third-generation normalized diffe...
The relationship between vegetation phenology and climate is a crucial topic in global change resear...
Key Project of National Natural Science Foundation of China (NSFC) 41030101;National Basic Research...
In light of the observed climate changes in recent decades over eastern China, we studied the change...
In order to understand past plant phenological responses to climate change in China (1963–2009), we ...
Autumn phenology plays a critical role in regulating climate-biosphere interactions. However, the cl...
Leaf phenology has been shown to be one of the most important indicators of the effects of climate c...
Using Ulmus pumila (Siberian Elm) leaf unfolding and leaf fall phenological data from 46 stations in...