Your search keyword '"Aslam, Rana Waqar"' showing total 3 results

1. Quantifying the scale of erosion along major coastal aquifers of Pakistan using geospatial and machine learning approaches.

Author

Aeman H, Shu H, Aisha H, Nadeem I, and Aslam RW

Subjects

Pakistan, Soil Erosion, Climate Change, Environmental Monitoring methods, Machine Learning, Groundwater

Abstract

Insufficient freshwater recharge and climate change resulted in seawater intrusion in most of the coastal aquifers in Pakistan. Coastal aquifers represent diverse landcover types with varying spectral properties, making it challenging to extract information about their state hence, such investigation requires a combination of geospatial tools. This study aims to monitor erosion along the major coastal aquifers of Pakistan and propose an approach that combines data fusion into the machine and deep learning image segmentation architectures for the erosion and accretion assessment in seascapes. The analysis demonstrated the image segmentation U-Net with EfficientNet backbone achieved the highest F1 score of 0.93, while ResNet101 achieved the lowest F1 score of 0.77. Resultant erosion maps indicated that Sandspit experiencing erosion at 3.14 km 2 area. Indus delta is showing erosion, approximately 143 km 2 of land over the past 30 years. Sonmiani has undergone substantial erosion with 52.2 km 2 land. Miani Hor has experienced erosion up to 298 km 2 , Bhuri creek has eroded over 4.11 km 2 , east Phitii creek over 3.30 km 2 , and Waddi creek over 3.082 km 2 land. Tummi creek demonstrates erosion, at 7.12 km 2 of land, and East Khalri creek near Keti Bandar has undergone a measured loss of 5.2 km 2 land linked with quantified reduction in the vertical sediment flow from 50 (billion cubic meters) to 10 BCM. Our analysis suggests that intense erosions are primarily a result of reduced sediment flow and climate change. Addressing this issue needs to be prioritized coastal management and climate change mitigation framework in Pakistan to safeguard communities. Leveraging emerging solutions, such as loss and damage financing and the integration of nature-based solutions (NbS), should be prioritized for the revival of the coastal aquifers., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

2. Assessing climatic impacts on land use and land cover dynamics in Peshawar, Khyber Pakhtunkhwa, Pakistan: a remote sensing and GIS approach

Author

Aslam, Rana Waqar, Naz, Iram, Quddoos, Abdul, and Quddusi, Muhammad Rizwan

Published

2024

3. Machine Learning-Based Wetland Vulnerability Assessment in the Sindh Province Ramsar Site Using Remote Sensing Data.

Author

Aslam, Rana Waqar, Shu, Hong, Naz, Iram, Quddoos, Abdul, Yaseen, Andaleeb, Gulshad, Khansa, and Alarifi, Saad S.

Subjects

*WETLANDS, *OPTICAL remote sensing, *REMOTE sensing, *MACHINE learning, *RANDOM forest algorithms, *ARTIFICIAL neural networks, *ENVIRONMENTAL health

Abstract

Wetlands provide vital ecological and socioeconomic services but face escalating pressures worldwide. This study undertakes an integrated spatiotemporal assessment of the multifaceted vulnerabilities shaping Khinjhir Lake, an ecologically significant wetland ecosystem in Pakistan, using advanced geospatial and machine learning techniques. Multi-temporal optical remote sensing data from 2000 to 2020 was analyzed through spectral water indices, land cover classification, change detection and risk mapping to examine moisture variability, land cover modifications, area changes and proximity-based threats over two decades. The random forest algorithm attained the highest accuracy (89.5%) for land cover classification based on rigorous k-fold cross-validation, with a training accuracy of 91.2% and a testing accuracy of 87.3%. This demonstrates the model's effectiveness and robustness for wetland vulnerability modeling in the study area, showing 11% shrinkage in open water bodies since 2000. Inventory risk zoning revealed 30% of present-day wetland areas under moderate to high vulnerability. The cellular automata–Markov (CA–Markov) model predicted continued long-term declines driven by swelling anthropogenic pressures like the 29 million population growth surrounding Khinjhir Lake. The research demonstrates the effectiveness of integrating satellite data analytics, machine learning algorithms and spatial modeling to generate actionable insights into wetland vulnerability to guide conservation planning. The findings provide a robust baseline to inform policies aimed at ensuring the health and sustainable management and conservation of Khinjhir Lake wetlands in the face of escalating human and climatic pressures that threaten the ecological health and functioning of these vital ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024