Effects of Urban Expansion on Forest Loss and Fragmentation in Six Megaregions, China

Zhou, Weiqi; Zhang, Sai; Yu, Wenjuan; Wang, Jing; Wang, Weimin

doi:10.3390/rs9100991

Cited by 53 publications

(29 citation statements)

References 41 publications

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“…There may exist a time-lag effect of fires, meaning forest loss likely occurs after fire burning over a longer period (e.g., years after fire burning). Second, studies suggest that other causes of forest loss should be considered (van Lierop et al 2015), such as urban expansion (Zhou et al 2017), timber harvesting (Wu et al 2019), and ice storm damage (Yang et al 2008). For example, urban expansion was suggested as a major factor causing forest loss in six mega regions of southern China (Zhou et al 2017).…”

Section: Discussionmentioning

confidence: 99%

“…For example, on 6 May 1987, a fire in the boreal forests of northeastern China burned ~ 1.3 × 10 6 ha and significantly affected forest resources and the environment (Xiao et al 1988;Cahoon et al 1994). Although the patterns and drivers (e.g., urban expansion) of forest loss have been examined in some regions of China (Jia et al 2015;Zhai et al 2017;Zhou et al 2017), an understanding of the effects of fires on forest loss on a national scale for China is still lacking. Filling this gap in our knowledge will increase the accuracy of predictions of future trends in forest change (loss or gain) in China.…”

Section: Introductionmentioning

confidence: 99%

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Spatiotemporal changes in forest loss and its linkage to burned areas in China

Yan

et al. 2019

J. For. Res.

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loss and burned areas using Spearman's correlation. Forest loss increased significantly (264.8 km 2 a −1 ; R 2 = 0.54, p < 0.01) throughout China, with an average annual increase of 11.4% during 2003-2015. However, the forest loss trend had extensive spatial heterogeneity. Forest loss increased mainly in the subtropical evergreen broadleaf forest zone (315.0 km 2 a −1 ; R 2 = 0.69, p < 0.01) and tropical rainforest zone (38.8 km 2 a −1 ; R 2 = 0.66, p < 0.01), but the loss of forest decreased in the cold temperate deciduous coniferous forest zone (− 70.8 km 2 year −1 ; R 2 = 0.75, p < 0.01) and the temperate deciduous mixed broadleaf and coniferous forest zone (− 14.4 km 2 a −1 ; R 2 = 0.45, p < 0.05). We found that 1.0% of China's area had a significant positive correlation (r ≥ 0.55, p < 0.05) with burned areas and 0.3% had a significant negative correlation (r ≤ − 0.55, p < 0.05). In particular, forest loss had a significant positive relationship with the burned area in the cold temperate deciduous coniferous forest zone (16.9% of the lands) and the subtropical evergreen broadleaf forest zone (7.8%). These results provide a basis for future predictions of fire-induced forest loss in China.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Spatiotemporal changes in forest loss and its linkage to burned areas in China

Yan

et al. 2019

J. For. Res.

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“…Aerial and satellite-based remote sensing has been commonly used for monitoring urban forest cover change and understanding urban forest cover and fragmentation patterns [17,18]. Individual year or perennial data that employ moderate to coarse resolution imagery have been frequently investigated to track forest change and monitor fragmentation [19][20][21][22]. Multi-temporal high resolution satellite imagery and light detection and ranging (LiDAR) data also play an important role in capturing accurate and detailed spatial patterns of fragmentation of urban forest cover, although the application of these datasets are limited in their spatial and temporal coverage [23][24][25][26].…”

Section: Introductionmentioning

confidence: 99%

“…Fragmentation metrics and analysis models have been widely utilized in existing studies to monitor landscape fragmentation patterns from local to global scales [19,20,[40][41][42][43]. Zhou et al [22] explored the statistical relationships between urban expansion and forest loss and landscape metrics-based fragmentation using correlation analysis. It has been found that urban expansion was a major driver of forest loss, and its cover has impacts on forest fragmentation; however, the relationships between the spatiotemporal pattern of forest loss and fragmentation were rarely examined [22].…”

Section: Introductionmentioning

confidence: 99%

“…Zhou et al [22] explored the statistical relationships between urban expansion and forest loss and landscape metrics-based fragmentation using correlation analysis. It has been found that urban expansion was a major driver of forest loss, and its cover has impacts on forest fragmentation; however, the relationships between the spatiotemporal pattern of forest loss and fragmentation were rarely examined [22]. The moving window-based forest area density (FAD) method has the ability to quantify spatiotemporal changes of…”

Section: Introductionmentioning

confidence: 99%

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Understanding Current and Future Fragmentation Dynamics of Urban Forest Cover in the Nanjing Laoshan Region of Jiangsu, China

Shen

Mao

et al. 2020

Remote Sensing

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Accurate acquisition of the spatiotemporal distribution of urban forests and fragmentation (e.g., interior and intact regions) is of great significance to contributing to the mitigation of climate change and the conservation of habitat biodiversity. However, the spatiotemporal pattern of urban forest cover changes related with the dynamics of interior and intact forests from the present to the future have rarely been characterized. We investigated fragmentation of urban forest cover using satellite observations and simulation models in the Nanjing Laoshan Region of Jiangbei New Area, Jiangsu, China, during 2002–2023. Object-oriented classification-based land cover maps were created to simulate land cover changes using the cellular automation-Markov chain (CA-Markov) model and the state transition simulation modeling. We then quantified the forest cover change by the morphological change detection algorithm and estimated the forest area density-based fragmentation patterns. Their relationships were built through the spatial analysis and statistical methods. Results showed that the overall accuracies of actual land cover maps were approximately 83.75–92.25% (2012–2017). The usefulness of a CA-Markov model for simulating land cover maps was demonstrated. The greatest proportion of forest with a low level of fragmentation was captured along with the decreasing percentage of fragmented area from 81.1% to 64.1% based on high spatial resolution data with the window size of 27 pixels × 27 pixels. The greatest increase in fragmentation (3% from 2016 to 2023) among the changes between intact and fragmented forest was reported. However, intact forest was modeled to have recovered in 2023 and restored to 2002 fragmentation levels. Moreover, we found 58.07 km2 and 0.35 km2 of interior and intact forests have been removed from forest area losses and added from forest area gains. The loss rate of forest interior and intact area exceeded the rate of total forest area loss. However, their approximate ratio (1) implying the loss of forest interior and intact area would have slight fragmentation effects on the remaining forests. This analysis illustrates the achievement of protecting and restoring forest interior; more importantly, excessive human activities in the surrounding area had been avoided. This study provides strategies for future forest conservation and management in large urban regions.

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Analyzing the Driving Factors Causing Urban Sprawl Using Logistic Regression Model in Greater Shillong Planning Area, India

Dolui,

Chakraborty

2024

Advances in Geographical and Environmental Sciences

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Effects of Urban Expansion on Forest Loss and Fragmentation in Six Megaregions, China

Cited by 53 publications

References 41 publications

Spatiotemporal changes in forest loss and its linkage to burned areas in China

Spatiotemporal changes in forest loss and its linkage to burned areas in China

Understanding Current and Future Fragmentation Dynamics of Urban Forest Cover in the Nanjing Laoshan Region of Jiangsu, China

Analyzing the Driving Factors Causing Urban Sprawl Using Logistic Regression Model in Greater Shillong Planning Area, India

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