Article
Agronomy
Linghua Qiu, Linfeng Fan, Liqun Sun, Zhenzhong Zeng, Lian Feng, Chao Yue, Chunmiao Zheng
Summary: As the climate warms, wildfires are becoming more severe. This study examines the impact of burn severity on vegetation and carbon recovery following wildfires in California. The results show that more severe burns cause greater damage and carbon releases, but also facilitate faster recovery. However, high-severity burns still pose a threat to California's carbon sink and worsen climate warming.
AGRICULTURAL AND FOREST METEOROLOGY
(2023)
Article
Ecology
Madeleine Pascolini-Campbell, Christine Lee, Natasha Stavros, Joshua B. Fisher
Summary: This study investigates how antecedent plant water stress predicts burn severity and provides insights for pre-fire season monitoring and fuel management.
GLOBAL ECOLOGY AND BIOGEOGRAPHY
(2022)
Article
Environmental Sciences
Lauren E. H. Mathews, Alicia M. Kinoshita
Summary: This study used satellite image indices and field observations to investigate the impact of invasive riparian vegetation on fuel conditions, fire behavior, and vegetation regrowth patterns. The presence of invasive vegetation affected burn severity distribution and canopy loss within each fire, with non-native vegetation regrowing rapidly and resulting in smaller canopy loss compared to native vegetation after fire.
Article
Multidisciplinary Sciences
David E. Rother, Fernando De Sales, Doug Stow, Joe McFadden
Summary: Burn severity has significant effects on postfire vegetation recovery and boundary-layer climate. The study found that high severity fires resulted in the greatest reduction in vegetation, but also the fastest recovery rate. However, after five years, neither land surface temperature nor vegetation index returned to prefire levels.
Article
Environmental Sciences
Qingqing Xu, Anthony LeRoy Westerling, Andrew Notohamiprodjo, Christine Wiedinmyer, Joshua J. Picotte, Sean A. Parks, Matthew D. Hurteau, Miriam E. Marlier, Crystal A. Kolden, Jonathan A. Sam, W. Jonathan Baldwin, Christiana Ade
Summary: Wildfire severity is a critical indicator with far-reaching impacts on air quality, climate, and public health. Accurate inventories are essential for assessing and managing these impacts, with the frequency and magnitude of large wildfires increasing in recent decades. The developed WBSE framework can provide quick estimates for wildfire severity and emissions, which can also be applied to other regions with modified data.
ENVIRONMENTAL RESEARCH LETTERS
(2022)
Article
Environmental Studies
Chad T. Hanson
Summary: Studies have shown that commercial thinning, a fire management approach, is associated with higher overall tree mortality levels compared to unthinned forests. However, the tree mortality caused by thinning itself is often overlooked, leaving an important source of tree loss unreported.
Article
Biodiversity Conservation
Brett J. Furnas, Benjamin R. Goldstein, Peter J. Figura
Summary: In Northern California, the richness of forest carnivore populations is highest in areas with intermediate fire severity diversity, while there is no association between time-since-fire diversity and carnivore richness. Moderate low severity burns are positively associated with carnivore populations.
DIVERSITY AND DISTRIBUTIONS
(2022)
Article
Astronomy & Astrophysics
Amy E. East, Joshua B. Logan, Peter Dartnell, Oren Lieber-Kotz, David B. Cavagnaro, Scott W. McCoy, Donald N. Lindsay
Summary: The risk of wildfires has increased in recent decades due to warming climate in various regions, leading to increased sediment export from burned landscapes which can threaten downstream infrastructure and water resources. A study in northern California investigated the landscape response after the 2018 Carr Fire, finding significant increase in sediment yields in the first year after the fire, primarily through water flow over the land surface rather than landslides.
EARTH AND SPACE SCIENCE
(2021)
Article
Environmental Sciences
Jose Manuel Fernandez-Guisuraga, Susana Suarez-Seoane, Carmen Quintano, Alfonso Fernandez-Manso, Leonor Calvo
Summary: This study aimed to compare the potential of physical-based models for assessing the short-term resilience of shrubland communities to fire. The results showed that high burn severity negatively impacted the recovery of shrublands dominated by facultative seeder species, while shrublands dominated by resprouters were able to reach pre-fire vegetation cover regardless of burn severity.
Article
Environmental Sciences
Jonathan A. Sam, W. Jonathan Baldwin, A. LeRoy Westerling, Haiganoush K. Preisler, Qingqing Xu, Matthew D. Hurteau, Benjamin M. Sleeter, Samrajya B. Thapa
Summary: Climate change is affecting wildfires and vegetation distribution in California's forests. Predicting burn severity patterns can support policy and land management decisions. This study demonstrates a methodology to estimate burn severity and test the accuracy of simulation using vegetation data. Improving the ability to simulate burn severity can advance our understanding of ecosystem-level response to land and fuel management.
ENVIRONMENTAL RESEARCH LETTERS
(2022)
Article
Environmental Sciences
Ioanna Tselka, Pavlos Krassakis, Alkiviadis Rentzelos, Nikolaos Koukouzas, Issaak Parcharidis
Summary: This study focuses on the wildfire case that burned 30 km(2) in Malesina of Central Greece in 2014, examining the fire's impact on soil erosion using remote sensing technology and modeling. The results revealed significant changes in soil loss rates after the wildfire, particularly with higher values observed in winter periods.
Article
Ecology
Lucas B. Harris, Stacy A. Drury, Alan H. Taylor
Summary: Legacy effects from a 1984 wildfire influenced post-2012 tree regeneration by creating variable fuel loading, affecting soils, litter cover, and shade after the subsequent fire. A low- to moderate-severity fire increases forest resilience relative to a high-severity fire even when the next fire burns at high severity.
Article
Environmental Sciences
Zhanghua Chen, Brian Z. Huang, Margo A. Sidell, Ting Chow, Sandrah P. Eckel, Nathan Pavlovic, Mayra P. Martinez, Fred Lurmann, Duncan C. Thomas, Frank D. Gilliland, Anny H. Xiang
Summary: This study found that increased exposure to non-freeway air pollution near residences in Southern California is associated with an increased risk of COVID-19 severity, including the need for intensive respiratory support, ICU admission, and mortality. These associations were independent of regional fine particulate matter and nitrogen dioxide exposures, and were consistent across different age, sex, and race/ethnicity subgroups.
ENVIRONMENT INTERNATIONAL
(2021)
Article
Forestry
David Beltran-Marcos, Susana Suarez-Seoane, Jose Manuel Fernandez-Guisuraga, Victor Fernandez-Garcia, Rayo Pinto, Paula Garcia-Llamas, Leonor Calvo
Summary: This study assessed the potential of using RGB and multispectral imagery collected by UAVs to discriminate soil burn severity after wildfires. Multispectral indices outperformed RGB indices, with NDWI being the best-performing index. Among the individual indicators of soil burn severity, ash depth yielded the best results.
Article
Environmental Sciences
Qingqing Xu, Anthony LeRoy Westerling, W. Jonathan Baldwin
Summary: Wildfires are a significant disturbance in the Earth system, with regional and global impacts on radiation, clouds, and climate. The increasing frequency and size of California wildfires have disrupted the terrestrial carbon cycle and hindered the state's efforts to reduce greenhouse gas emissions. These wildfires also have a major impact on air quality and public health. This study analyzed the severity and emissions of large wildfires in California from 1984 to 2020, revealing the importance of vegetation and severity in controlling the spatial and seasonal distribution of emissions. The findings showed that annual burned area and emissions in California have increased, particularly in the early and late parts of the traditional fire season.
ENVIRONMENTAL RESEARCH LETTERS
(2022)
Article
Plant Sciences
Raquel Partelli-Feltrin, Alistair M. S. Smith, Henry D. Adams, Crystal A. Kolden, Daniel M. Johnson
Summary: Understanding tree physiological responses to fire is crucial to accurately model post-fire carbon processes and inform management decisions. Two experiments were conducted to assess short- and long-term fire effects on Pinus ponderosa sapling water transport. While fire did not impact native percentage loss of conductivity and xylem cell wall structure, surviving saplings were found to be more vulnerable to cavitation 21 months post-fire, suggesting decreased resistance to embolism in fire-wounded plants may contribute to sapling mortality in the years following fire.
PLANT CELL AND ENVIRONMENT
(2021)
Article
Environmental Sciences
Erin J. Hanan, Jianning Ren, Christina L. Tague, Crystal A. Kolden, John T. Abatzoglou, Ryan R. Bart, Maureen C. Kennedy, Mingliang Liu, Jennifer C. Adam
Summary: Extreme wildfires are increasing globally, prompting new efforts to mitigate risk. The ecological appropriateness of risk mitigation strategies depends on the factors driving these increases. Recent advances in fire regime modeling can help understand which drivers dominate at management-relevant scales.
ENVIRONMENTAL RESEARCH LETTERS
(2021)
Article
Geosciences, Multidisciplinary
John T. Abatzoglou, Caroline S. Juang, A. Park Williams, Crystal A. Kolden, Anthony LeRoy Westerling
Summary: The research shows a strong correlation between fire danger days in western US forests and strain on national fire suppression resources, with a projected doubling of synchronous fire danger days in the coming decades.
GEOPHYSICAL RESEARCH LETTERS
(2021)
Article
Ecology
V. S. Jansen, C. A. Kolden, H. J. Schmalz, J. W. Karl, R. Taylor
Summary: This study tested the relationships between vegetation biomass metrics derived from remotely sensed data and stocking rate at the pasture scale, as well as field-based utilization estimates at the plot scale. The results demonstrated consistent relationships between fall mean biomass and the relative difference between summer and fall biomass with stocking rate and utilization estimates. This highlights the potential of using remotely sensed data for informing adaptive management in rangeland ecosystems.
RANGELAND ECOLOGY & MANAGEMENT
(2021)
Article
Ecology
Susan J. Prichard, Paul F. Hessburg, R. Keala Hagmann, Nicholas A. Povak, Solomon Z. Dobrowski, Matthew D. Hurteau, Van R. Kane, Robert E. Keane, Leda N. Kobziar, Crystal A. Kolden, Malcolm North, Sean A. Parks, Hugh D. Safford, Jens T. Stevens, Larissa L. Yocom, Derek J. Churchill, Robert W. Gray, David W. Huffman, Frank K. Lake, Pratima Khatri-Chhetri
Summary: It is necessary to take a range of proactive management actions to adapt to changing climatic and wildfire regimes, including restoring active fire regimes, prescribed burning, and thinning in western North American forests. These actions should be consistent with land management allocations and forest conditions to help maintain the ecological balance of the forests.
ECOLOGICAL APPLICATIONS
(2021)
Article
Environmental Sciences
Jianning Ren, Erin J. Hanan, John T. Abatzoglou, Crystal A. Kolden, Christina (Naomi) L. Tague, Maureen C. Kennedy, Mingliang Liu, Jennifer C. Adam
Summary: This study investigates the influence of exogenous and endogenous drivers on fire regimes in a semiarid watershed. The results show that the increase in fuel loading surpasses the decrease in fuel caused by climate change due to the CO2 fertilization effect, resulting in an increase in burned area and burn probability. However, by the late-21st century, climatic warming dominates over CO2 fertilization, leading to a reduction in fuel loading and burned area.
Article
Environmental Sciences
Virginia Iglesias, Natasha Stavros, Jennifer K. Balch, Kimiko Barrett, Jeanette Cobian-Iniguez, Cyrus Hester, Crystal A. Kolden, Stefan Leyk, R. Chelsea Nagy, Colleen E. Reid, Christine Wiedinmyer, Elizabeth Woolner, William R. Travis
Summary: Increasing fire impacts in North America are attributed to climate and vegetation change, urban development, and social vulnerability. It is crucial to transition from emergency response to proactive measures to build sustainable communities, protect human health, and restore the use of fire for ecosystem processes. An integrated risk factor approach is proposed to identify 'fires that matter' and prioritize science-informed planning strategies for increasing community resilience to fires.
ENVIRONMENTAL RESEARCH LETTERS
(2022)
Review
Geochemistry & Geophysics
Matthew W. Jones, John T. Abatzoglou, Sander Veraverbeke, Niels Andela, Gitta Lasslop, Matthias Forkel, Adam J. P. Smith, Chantelle Burton, Richard A. Betts, Guido R. van der Werf, Stephen Sitch, Josep G. Canadell, Cristina Santin, Crystal Kolden, Stefan H. Doerr, Corinne Le Quere
Summary: This article reviews the impacts of climate change on fire weather and the consequences for regional fire activity. It finds that fire weather controls the annual timing of fires in most world regions, and the frequency and extremity of fire weather have been globally pervasive due to climate change. Increases in burned area have also been seen in some forest regions, but other factors can override the relationship between burned area and fire weather.
REVIEWS OF GEOPHYSICS
(2022)
Article
Environmental Sciences
Qingqing Xu, Anthony LeRoy Westerling, Andrew Notohamiprodjo, Christine Wiedinmyer, Joshua J. Picotte, Sean A. Parks, Matthew D. Hurteau, Miriam E. Marlier, Crystal A. Kolden, Jonathan A. Sam, W. Jonathan Baldwin, Christiana Ade
Summary: Wildfire severity is a critical indicator with far-reaching impacts on air quality, climate, and public health. Accurate inventories are essential for assessing and managing these impacts, with the frequency and magnitude of large wildfires increasing in recent decades. The developed WBSE framework can provide quick estimates for wildfire severity and emissions, which can also be applied to other regions with modified data.
ENVIRONMENTAL RESEARCH LETTERS
(2022)
Article
Environmental Sciences
Kelsey N. Bryant, Jeffrey Stenzel, Justin Mathias, Hyojung Kwon, Crystal A. Kolden, Laurel Lynch, Tara Hudiburg
Summary: Forests play an important role in mitigating climate change through carbon sequestration, but increased wildfire activity poses a threat to carbon storage. This study investigates the impact of wildfires on mature ponderosa pine trees and finds that the severity of damage is positively correlated with photosynthetic capacity. Burned trees are able to compensate for damage by increasing the efficiency of carbon uptake at the leaf-level. The study also suggests that the heightened photosynthetic capacity in remaining needles on burned trees is linked to reduced water stress and leaf nitrogen content. These findings have implications for Earth system modeling efforts and land management practices.
ENVIRONMENTAL RESEARCH LETTERS
(2022)
Article
Plant Sciences
Raquel Partelli-Feltrin, Alistair M. S. Smith, Henry D. Adams, R. Alex Thompson, Crystal A. Kolden, Kara M. Yedinak, Daniel M. Johnson
Summary: Disruption of photosynthesis and carbon transport due to fire can lead to tree mortality. This study found that a lethal fire dose had an impact on nonstructural carbohydrates and xylem hydraulics in Pinus ponderosa saplings. While photosynthesis and whole plant nonstructural carbohydrates declined postfire, water transport remained unchanged, and the cause of death was likely phloem and cambium necrosis.
Article
Engineering, Industrial
Milad Haghani, Erica Kuligowski, Abbas Rajabifard, Crystal A. Kolden
Summary: Along with the increase in the frequency of disastrous wildfires and bushfires around the world, scholarly research efforts in this field have also intensified. This study investigates the divisions and trends of wildfire/bushfire research and finds that the field has been growing exponentially. The research domain is multidisciplinary, with divisions focused on forest ecology, fire detection technology, community risk mitigation, soil and water ecology, and atmospheric science. Popular topics within the field include climate change and fire activities, fire risk modeling/mapping, wildfire impact on organic matter, biomass burning, and human health impacts.
Article
Ecology
Kristina J. Bartowitz, Eric S. Walsh, Jeffrey E. Stenzel, Crystal A. Kolden, Tara W. Hudiburg
Summary: Climate change has increased the impact of global wildfires in recent decades. Policies in the western United States aim to lower fire risk by harvesting trees, including large-diameter trees. However, these policies have been misinterpreted as strategies to save trees from fire, leading to unnecessary tree cutting and greater forest carbon losses.
FRONTIERS IN FORESTS AND GLOBAL CHANGE
(2022)
Article
Environmental Sciences
John T. Abatzoglou, David S. Battisti, A. Park Williams, Winslow D. Hansen, Brian J. Harvey, Crystal A. Kolden
Summary: The escalating burned area in western US forests has heightened the need to explore near-term forest-fire area trajectories. Fire-fuel feedbacks may impose constraints on climate-driven trends, but are unlikely to strongly constrain the profound broad-scale increases in forest-fire area by the mid-21st century, highlighting the need for proactive adaptation to increased forest-fire impacts.
COMMUNICATIONS EARTH & ENVIRONMENT
(2021)
Article
Geosciences, Multidisciplinary
Jianning Ren, Jennifer C. Adam, Jeffrey A. Hicke, Erin J. Hanan, Christina L. Tague, Mingliang Liu, Crystal A. Kolden, John T. Abatzoglou
Summary: The study reveals that the impact of mountain pine beetle outbreaks on water yield in watersheds is influenced by various factors, resulting in significant spatial and temporal variations. During wet years, water yield tends to increase with higher tree mortality rates, while in dry years, water yield decreases at lower to medium mortality rates but increases at high mortality rates.
HYDROLOGY AND EARTH SYSTEM SCIENCES
(2021)
Article
Environmental Sciences
Elizabeth Alvarez-Chavez, Stephane Godbout, Mylene Genereux, Caroline Cote, Alain N. Rousseau, Sebastien Fournel
Summary: This study evaluated the effect of alternative filtering materials and bed aeration on the retention of nutrients and fecal bacteria in woodchip bedded stand-off pads for cows. The results showed that the alternative biofilters were more efficient in removing COD, SS, TN, and NO3-N, while conventional biofilters were more efficient for PO4-P removal. Aeration did not have a significant effect under the tested temperature conditions.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Yike Zhang, Zengyi Ma, Zhuoting Fang, Yuandong Qian, Zhiping Huang, Yilong Ye, Jianhua Yan
Summary: This study investigates the application of oxygen enrichment melting technology in the melting of municipal solid waste incineration fly ash. The results demonstrate that oxygen enrichment technology can reduce energy consumption and operating costs, as well as decrease pollution emissions.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Liangang Xiao, Mingkai Leng, Philip Greenwood, Rongqin Zhao, Zhixiang Xie, Zengtao You, Junguo Liu
Summary: This study investigates the effects of grazing exclusion on soil organic carbon (SOC) accumulation and vegetation recovery. It finds that grazing exclusion can increase the potential for SOC accumulation, and higher annual precipitation is positively correlated with SOC accumulation.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Beatrice Cantoni, Jessica Ianes, Beatrice Bertolo, Selena Ziccardi, Francesco Maffini, Manuela Antonelli
Summary: This study evaluates the performance of ozonation and adsorption as in-series processes compared to standalone processes for the removal of Contaminants of Emerging Concern (CECs) in drinking water. The combination of both processes proves to be more effective than adsorption and ozonation alone. Ozonation improves the adsorption performance of poorly-oxidizable CECs but worsens that of well-oxidizable compounds. This research highlights the importance of considering both processes in the removal of CECs in drinking water treatment plants.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Dan Li, Bingjun Liu, Yang Lu, Jianyu Fu
Summary: A new Standardized compound Drought and Saltwater intrusion Index (SDSI) was developed to detect changes in the severity of CDSEs in six estuaries. The study found that saltwater intrusion plays a dominant role in influencing SDSI severity, and CDSEs vary in frequency, duration and severity among different estuaries.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Yong-Qiang Li, Rui Sun, Chong-Miao Zhang, Zi-Xuan Liu, Rui-tao Chen, Jian Zhao, Hua-dong Gu, Huan-Cai Yin
Summary: In this study, an electron beam excitation multi-wavelength ultraviolet (EBE-MW-UV) system was established and found to have significantly higher microbial inactivation effects compared to single-wavelength UV-LEDs in water. Mechanism analysis revealed that EBE-MW-UV damaged microbial DNA and proteins, and generated additional reactive oxygen species, leading to microbial inactivation.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Kaili Ma, Xinxin Han, Qiujuan Li, Yu Kong, Qiaoli Liu, Xu Yan, Yahong Luo, Xiaopin Li, Huiyang Wen, Zhiguo Cao
Summary: This study reveals that the use of a tryptophan-degrading microbial consortium (TDC) can enhance the hydrolysis efficiency of waste activated sludge (WAS), increasing the yield and quality of short chain fatty acids (SCFAs) and improving the solubilization and release of organic substances from WAS.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Ling Xiong, Rui Li
Summary: Incorporating Ecosystem Service Value (ESV) into land use planning can provide informed land management decisions. This study evaluates the ESV of Guizhou Province in China's karst region. The results show an increase in total ESV over the past two decades due to ecological restoration projects.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
M. Geetha Jenifel
Summary: This article discusses the importance of water and the pollution of freshwater resources, and introduces the use of machine learning models and blockchain technology to predict and protect water quality.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Stanslaus Terengia Materu, Taotao Chen, Chang Liu, Daocai Chi, Meng Jun
Summary: The study showed that H2SO4-modified biochar can reduce P leaching, increase soil available P, and enhance plant P uptake in alternate wetting and drying irrigation systems. Biochar additions B20A and IAWDB20A-M were effective in improving yield, reducing P leaching, and increasing APB.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Amir Nouri, Ali Akbar Zinatizadeh, Sirus Zinadini, Mark Van Loosdrecht
Summary: This study focuses on the development of an air-lift bio-electrochemical reactor (ALBER) with a continuous feeding regime to enhance nitrogen removal from synthetic wastewater. The effect of temperature, hydraulic retention time (HRT), N -NH+4 /TN ratio, and current density on the reactor performance was investigated, and the ALBER achieved a maximum TN removal of 73%. The results suggest that the ALBER has potential for treating industrial wastewater at low temperatures.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Peifang Wang, Guoxiang You, Yang Gao, Juan Chen, Xun Wang, Chao Wang
Summary: This study investigated the ecological processes of microbial communities and N- and P-transformation processes in multistage agricultural drainage ditches. The results showed that the microbial communities were co-shaped by agricultural practices and ditch size, which further governed the N and P removal performance.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Xiaofeng Niu, Huan Wang, Tao Wang, Peiyu Zhang, Huan Zhang, Hongxia Wang, Xianghong Kong, Songguang Xie, Jun Xu
Summary: Microorganisms play a critical role in maintaining ecosystem balance, and environmental stressors can affect the assembly processes of microbial communities. The study found that different stressors have opposite effects on microbial community assembly in water and sediment, and warming has different influences compared to herbicides and nutrients.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Yuqing Tan, Qiming Cheng, Fengwei Lyu, Fei Liu, Linhao Liu, Yihong Su, Shaochun Yuan, Wenyu Xiao, Zhen Liu, Yao Chen
Summary: The exacerbation of global warming, extreme weather events, and rapid urbanization have led to increased flooding in urban areas. China has adopted sponge city as an efficient means of preventing and controlling urban floods. Using a SWMM-FVCOM model, the hydrological reduction and control effect of sponge city construction (SPCC) within a university campus were evaluated. The study found that implementing SPCC effectively mitigates surface runoff and reduces the severity of urban flooding. However, the efficacy of runoff control decreases with longer rainfall return periods.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)
Article
Environmental Sciences
Zhonghan Chen, Qiuyan Li, Shibo Yan, Juan Xu, Qiaoyun Lin, Zhuangming Zhao, Ziying He
Summary: Tidal rivers are important biochemical reaction channels, receiving carbon from wastewater and agricultural drains, affecting CO2 emissions. Through modeling and data analysis, researchers explored carbon distribution, emissions, and greenhouse effects, emphasizing the potential of river management to change global CO2 emissions under climate change.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2024)