The following paper about the China’s photovoltaic energy has been recently accepted for publication by Renewable and Sustainable Energy Reviews.
Guo, J., X. Wang, J. Meng, H. Zheng, Y. Fan, L. Ji, and X. Liang. Picturing China’s photovoltaic energy future: Insights from CMIP6 climate projections. Renewable and Sustainable Energy Reviews, accepted on October 25, 2023.
More details will come soon once the paper is published.
Title: Assessing the Potential Impacts of Climate Change on Current Coastal Ecosystems—A Canadian Case Study
Journal: Remote Sensing
DOI: https://doi.org/10.3390/rs15194742
Abstract: Understanding how climate change affects coastal ecosystems is one of the most important elements in determining vulnerability and resilience for long-term ecosystem management in the face of the increasing risk of coastal hazards (e.g., sea level rise, coastal flooding, and storm surge). This research attempts to undertake a study on the ecosystem–climate nexus in the Canadian province of Prince Edward Island (PEI). Cloud-based remote sensing techniques with Google Earth Engine (GGE) are utilized to identify ecosystem changes over time. In addition, the effects of coastal flooding and storm surge ecosystems under different climate scenarios are examined. The results suggest a reduction in the forest (3%), open water or marsh component (9%), salt water (5%), no open water or marsh component (3%), and salt or brackish marsh (17%) ecosystems from 2013 to 2022. Dune and beach exhibit a non-uniform distribution across the period because of variations in natural processes, with an upward trend ranging from 0% to 11%. Approximately 257 km2 (9.4%) of PEI’s ecosystems would be affected by extreme coastal flooding (scenario 4), compared to 142 km2 (5.2%), 155 km2 (5.7%), and 191 km2 (7%) in scenarios 1, 2, and 3, respectively. Under a 4 m storm surge scenario, around 223 km2 (8.2%) of PEI’s ecosystems would be flooded, compared to 61 km2 (2.2%), 113 km2 (4.1%), and 168 km2 (6.1%) under 1 m, 2 m, and 3 m scenarios, respectively. The findings from this research would enable policymakers to take necessary actions to sustain ecosystem services in PEI while confronting the impacts of climate change.
The following paper about the mapping of crop evapotranspiration using remote sensing technologies has been recently accepted for publication by Frontiers in Remote Sensing.
Imtiaz, F., A. Farooque, X. Wang, F. Abbas, H. Afzaal, T. Esau, B. Acharya, and Q. Zaman. Mapping Crop Evapotranspiration with High-Resolution Imagery and Meteorological Data: Insights for Sustainable Agriculture in Prince Edward Island. Frontiers in Remote Sensing, accepted on September 29, 2023.
More details will come soon once the paper is published.