Quantifying the contribution of land use change to surface temperature in the lower reaches of the Yangtze River

Wang, Xueqian; Guo, Weidong; Qiu, Bo; Liu, Ye; Sun, Jianning; Ding, Aijun

doi:10.5194/acp-17-4989-2017

Cited by 44 publications

(15 citation statements)

References 46 publications

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“…First, the expansion in artificial built-up areas dramatically modifies the surface properties such as soil moisture, roughness, and albedo in urban areas (Myhre & Myhre, 2003;Wang et al, 2017;Yuzhen & Shunlin, 2018). First, the expansion in artificial built-up areas dramatically modifies the surface properties such as soil moisture, roughness, and albedo in urban areas (Myhre & Myhre, 2003;Wang et al, 2017;Yuzhen & Shunlin, 2018).…”

Section: Discussion On Possible Mechanisms Underlying the Impacts Of mentioning

confidence: 99%

“…The mechanisms linking the UDI effect with the intensification of urban expansion are explained as follows. First, the expansion in artificial built‐up areas dramatically modifies the surface properties such as soil moisture, roughness, and albedo in urban areas (Myhre & Myhre, ; Wang et al, ; Yuzhen & Shunlin, ). Compared with rural areas, the impermeable built‐up surfaces (e.g., buildings, paved land, and motorways) in urban areas have less available soil moisture, thereby decreasing the atmospheric humidity above the ground.…”

Section: Discussion On Possible Mechanisms Underlying the Impacts Of mentioning

confidence: 99%

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Urban Expansion and Drying Climate in an Urban Agglomeration of East China

Luo

Lau

2019

Geophysical Research Letters

116

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Urban land expansion is one of the most conspicuous aspects of urbanization and has profound impacts on regional climate change. Most studies, however, focus on its impacts on surface temperature, and possible effects on atmospheric humidity are less known. By examining the humidity changes in the Yangtze River Delta urban agglomeration of China during 1961–2014, we find a prominent urban dry island (UDI) effect in this urban agglomeration, as characterized by reduced humidity and increased vapor pressure deficit in the urban core area. In the past decades, the UDI effect has been significantly intensified by rapid urban land expansion. Urban expansion contributes to around half of the decrease in atmospheric humidity and the increase in vapor pressure deficit in urban areas. These effects are particularly stronger in wet hot summer and relatively weaker in cold dry winter. We suggest that the UDI effect should be considered in future urban planning, landscape design, and climate change assessment and mitigation.

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Section: Discussion On Possible Mechanisms Underlying the Impacts Of mentioning

confidence: 99%

Section: Discussion On Possible Mechanisms Underlying the Impacts Of mentioning

confidence: 99%

Urban Expansion and Drying Climate in an Urban Agglomeration of East China

Luo

Lau

2019

Geophysical Research Letters

116

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“…All verification is accomplished between the observations and the results of the grid cell where the site is located in the inner most model domain, where the grid spacing is 1 km × 1 km. Additional information about both the observations and sites can be found in previous studies (Guo et al, ; Wang et al, ; Zou et al, ).…”

Section: Methodsmentioning

confidence: 99%

Assessing the Impact of Urban Hydrological Processes on the Summertime Urban Climate in Nanjing Using the WRF Model

et al. 2019

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The impacts of urban hydrological processes, such as anthropogenic latent heat (ALH), multilayer green roof systems (GRO), evaporation from impervious surfaces (EIMP), urban irrigation (IRR), and the urban “oasis effect” (OASIS) on regional hydrometeorology in Nanjing, are assessed by the Weather Research and Forecasting Single‐Layer Urban Canopy Models (WRF‐SLUCM). The results show that including all five urban hydrological processes, ALL best improves the prediction of near‐surface meteorology and has the largest correlation coefficients, the smallest root mean square errors, and the most accurate diurnal variations compared with observations. The improvements of ALH, GRO, and OASIS are larger than those of IRR and EIMP. The influence of ALH, GRO, and OASIS is comparable in commercial areas, whereas the influence of OASIS is significantly greater and plays essential roles in low‐intensity residential areas. Therefore, the overall effect of urban hydrological processes is especially large over low‐intensity residential areas, where the ALL case‐simulated monthly mean 2‐m air temperature (surface temperature) is reduced by approximately 1.3 (5.0) °C, the 2‐m specific humidity increases by 0.8 g kg–1, and the sensible heat (latent heat) flux is reduced (increased) at most by 90 W m–2. The changes in the vertical profiles indicate that urban hydrological processes reduce the potential temperature and wind speed, whereas they increase specific humidity over the entire urban boundary layer, leading to a more stable atmospheric conditions, reduced vertical mixing, and weaker convective rolls. These effects could mitigate the intensity of urban heat/dry islands while simultaneously exacerbating low‐level air pollution.

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“…The most significant of this change are variations in thermal characteristics of the area. Thus, built up areas tend to have land surface temperatures (LST) higher than surrounding suburban environment [8] [9]; and these thermal differences are contributing to the development of microclimatic condition otherwise referred to as the urban heat island (UHI) [1] [2] [10] [11]. Numerous studies [9]- [14] which have studied the relative effects of land use/Land cover change (LULCC) on LST have always found a positively correlated result with imperviousness.…”

Section: Introductionmentioning

confidence: 99%

“…More so, the removal of vegetation cover often leads to the adjustment in local water balance because the interception role of the canopy is lost, evapo-transpiration is changes or reduced [11] [15] runoff may be increased and radiation budget [2] may be upset by prescribing new surface geometry and albedo. These and numerous other effects reported in researches [1] [18] stressed the fact that man has very likely destroyed vegetation cover over vast areas for various purposes during the last few decades thereby leading to modification of climate [3] [19] as energy and mass balances are unfavourably altered, allowing the soil to be destroyed and desertification to set in most places.…”

Section: Introductionmentioning

confidence: 99%

Impact of Land Use/Land Cover Change on Surface Temperature Condition of Awka Town, Nigeria

Nzoiwu¹,

Agulue²,

Mbah³

et al. 2017

JGIS

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This paper is aimed at identifying the land use/cover types in Awka in relation to their temporal dynamics, the extent of land use change in the city and effects of land use change on surface temperature. Multitemporal Landsat TM, ETM + and OLI imageries were obtained at 15 years interval for 1986, 2000 and 2015 respectively. Image classification was conducted using supervised classification method. The result showed that built-up area has been on the increase, expanding from 9.55 sqkm in 1986 to 21.3 sqkm in 2000 and 21.45 sqkm in 2015. Cultivated lands have maintained a steady decline since 2000 having lost about 3.29 sqkm of its area. Similarly, vegetation, made up of dense, savanna and riparian, has been on a decline from a total of 33.69sqkm in 1986 to 21.407 sqkm losing about 12.29 sqkm of its area and increased by a mere 4.07 sqkm in 2015. These alterations had given rise to an average increase of 2.2˚C in surface radiant temperature. This study recommends that relevant government planning agencies (ACTDA, ASHDC, etc.) should factor in the concept of greening and green spaces into their development policies and strategies to ensure that fair, conducive microclimate and sustainable environment is maintained in the Awka urban area.

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Quantifying the contribution of land use change to surface temperature in the lower reaches of the Yangtze River

Cited by 44 publications

References 46 publications

Urban Expansion and Drying Climate in an Urban Agglomeration of East China

Urban Expansion and Drying Climate in an Urban Agglomeration of East China

Assessing the Impact of Urban Hydrological Processes on the Summertime Urban Climate in Nanjing Using the WRF Model

Impact of Land Use/Land Cover Change on Surface Temperature Condition of Awka Town, Nigeria

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