Analysing the land use/land cover influence on land surface temperature in San Luis Potosí Basin, México using remote sensing techniques

Ovalle, A. G. C.; Tristán, Abraham Cárdenas; Amador-Nieto, J. A.; Putri, Ratih Fitria; Zahra, Rousta

doi:10.1088/1755-1315/686/1/012029

Cited by 15 publications

(6 citation statements)

References 14 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…On the other hand, in this study, it was found that the city's impermeable materials have the highest values of net flux, meaning that, in these areas, the energy cannot be used for the evapotranspiration processes, causing an increase in the temperature of the city. According to Ovalle et al [25], it has been verified that the surfaces with coverage without vegetation and urban areas tend to have higher temperatures in the study area. Likewise, the study area has presented climatic changes related to soil cover [25,26].…”

Section: Net Radiation Changes Implicationsmentioning

confidence: 77%

“…According to Ovalle et al [25], it has been verified that the surfaces with coverage without vegetation and urban areas tend to have higher temperatures in the study area. Likewise, the study area has presented climatic changes related to soil cover [25,26]. Several analyses registered similar behaviors [27][28][29], where the energy depends on the ground cover.…”

Section: Net Radiation Changes Implicationsmentioning

confidence: 77%

“…During the period 1990-2017, it was observed that, in the rainy season, net flux increases compared to the dry season; this is considered a typical behavior in summer [10]. Related to the surface temperature values recorded in the area, it has been found that in the dry seasons, the surface temperature increases, mainly between March to May [25].…”

Section: Net Radiation Changes Implicationsmentioning

confidence: 93%

See 2 more Smart Citations

Evaluation of Net Radiation in San Luis Potosí City—México, with Remote Sensing Processes

Abraham¹,

Gerardo²,

Oscar³

et al. 2023

Climate Change - Recent Observations [Working Title]

View full text Add to dashboard Cite

Net radiation is essential in analyzing the earth’s energy balance since it regulates the soil’s temperature, humidity, and thermal processes. Then, energy regulates an urban area’s climate and heat distribution. Therefore, problems such as heat islands arise if these areas have more impervious surfaces than vegetation cover. The main objective of this study is to evaluate the net radiation in the city of San Luis Potosí from a multi-temporal analysis applying remote sensing. Satellite images from the Landsat 5 TM and 8 OLI/TIRS sensors were used. Through remote sensing processes, the imagery has been calibrated to obtain the net flux extracting the incident and outgoing radiation. Our results show that net radiation levels decrease in the dry season and increase in the rainy season. It was also observed that the incident radiation predominates over the outgoing radiation on the city’s impervious surfaces, causing temperature increase. This study is helpful in decision-making related to the city’s planning.

show abstract

Section: Net Radiation Changes Implicationsmentioning

confidence: 77%

Section: Net Radiation Changes Implicationsmentioning

confidence: 77%

Section: Net Radiation Changes Implicationsmentioning

confidence: 93%

See 1 more Smart Citation

Evaluation of Net Radiation in San Luis Potosí City—México, with Remote Sensing Processes

Abraham¹,

Gerardo²,

Oscar³

et al. 2023

Climate Change - Recent Observations [Working Title]

View full text Add to dashboard Cite

show abstract

“…Hamdi et al [30] have argued that the LST of Belgium has been rising at the rate of 0.15 • C for every decade since 1960 due to urbanization. Ovalle et al [31] have reported an increase of approximately 11 • C in LST due to land cover changes (LCCs) in Luis Potosi, Mexico, in the last two decades. Using the Landsat series data, Jalan et al [32] noted that the LST has increased from about 2.9 • C to 4.0 • C in Jaipur, India.…”

Section: Introductionmentioning

confidence: 99%

Investigating Land Cover Changes and Their Impact on Land Surface Temperature in Khyber Pakhtunkhwa, Pakistan

Ul Hussan,

Li,

Liu

et al. 2024

Sustainability

View full text Add to dashboard Cite

Restoration of degraded land is a significant concern in the 21st century in order to combat the impacts of climate change. For this reason, the provisional government of Khyber Pakhtunkhwa (KPK), Pakistan, initialized a Billion Tree Tsunami Project (BTTP) in 2013 and finished it in 2017. Although a few researchers have investigated the land use transitions under BTTP in the short term by merging all the vegetation types into one, analysis of the long-term benefits of the project and future persistence were missing. Furthermore, the previous studies have not discussed whether the prime objective of the BTTP was achieved. Considering the existing gaps, this research mainly involves analyzing (i) fluctuations in the green fraction by employing a land change modeler (LCM), along with the spatial location of gain-loss and exchange analysis using a high-resolution dataset (GLC30); (ii) forest cover changes under the influence of the BTTP; (iii) impacts of green fraction changes towards land surface temperature (LST) by utilizing the less-explored technique of curve fit linear regression modeling (CFLR); and finally, (iv) assessing the persistence of the NDVI and LST trends by employing the Hurst exponent. Research findings indicate that as an output of BTTP, despite the government’s claim of increasing the forest cover by 2%, a significant gain of grassland (3904.87 km2) was observed at the cost of bare land. In comparison, the overall increase in forest cover was only 0.39%, which does not satisfy the main objective of this project. On the other hand, the CFLRM-based actual contributions of land cover change (LCC) transition to LST indicate a significant decline in LST in the areas with gains in green fraction for both grassland and forest. At the same time, an increase was observed with reverse transitions. Although the results appear positive for climatic impacts in the short term, the HURST model-based persistence analysis revealed that the spatial locations of increasing vegetation and decreasing LST trends fall under the weakly persistent category, therefore these trends may not continue in the near future. Despite some positive impact on LST attributed to the green fraction increase, this project cannot be regarded as a complete success due to its failure to achieve its prime objective.

show abstract

“…Moreover, Maishella et al's [5] study aimed to analyze the changes in LC (built-up area) and its relationship with LST in Sleman Regency; results indicated a positive relationship between the increase in the built-up areas and an increase in LST. Ovalle et al [6] studied the relationship between LULC and LST using the geographical information systems (GIS) and RS in the San Luis Potosí Basin, México. The results showed an opposite relation between vegetation cover density and LST; the less vegetation cover, the higher the LST.…”

Section: Introductionmentioning

confidence: 99%

Land Cover and Land Surface Temperature in the West Bank, Palestine

Helal,

Zawawi

2024

Advances in Civil Engineering

View full text Add to dashboard Cite

The 10 major cities in the West Bank (WB), Palestine—Nablus, Ramallah and Al-Bireh, Jenin, Qalqilia, Salfit, Tubas, Jericho, Bethlehem, Tulkarem, and Hebron—are experiencing rapid urban transformation and changing land cover. This study explores the relationship between land cover (built-up and unbuilt areas) and soil type in these cities across benchmark years 1995, 2000, 2005, 2010, 2015, and 2021. In addition to the former, the paper argues that the expansion and increase of the built-up area and the change in soil type of the aforementioned cities in the West Bank, Palestine, are leading to changes in the land surface temperature (LST). This conclusion was reached through a methodological framework that was developed to measure the relationship between the changing land cover (built-up and unbuilt-up areas), soil type, and LST in the 10 major cities in the region. The framework relies on data retrieved through remote sensing in the years from 1995 to 2021. The results of the analysis conducted through this methodological framework showed that there is an inverse relationship between the increase in built-up areas and LST; however, LST is less inside the built-up areas than in the surrounding areas (open spaces) due to different land cover (unbuilt area with grass and shrubs) and different soil type.

show abstract

Analysing the land use/land cover influence on land surface temperature in San Luis Potosí Basin, México using remote sensing techniques

Cited by 15 publications

References 14 publications

Evaluation of Net Radiation in San Luis Potosí City—México, with Remote Sensing Processes

Evaluation of Net Radiation in San Luis Potosí City—México, with Remote Sensing Processes

Investigating Land Cover Changes and Their Impact on Land Surface Temperature in Khyber Pakhtunkhwa, Pakistan

Land Cover and Land Surface Temperature in the West Bank, Palestine

Contact Info

Product

Resources

About