Russian fuel and energy complex modernization in the circular economy direction by V. Ya. Afanasiev, O. I. Bolshakova, A. A. Romantsov

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Drought-induced shifts in gross primary production pathways in Moso bamboo forests: Insights from improved BIOME-BGC and structural equation modeling by Zhaodong Zheng, Fangjie Mao, Huaqiang Du, Xuejian Li, Fengfeng Ye, Xianfeng Teng, Ningxin Yang, Jiacong Yu, Meixuan Song, Yinyin Zhao

“…Moso bamboo forest (MBF) is a special forest type widely distributed in subtropical regions with high carbon sequestration potential. However, climate change induced frequent drought events have significantly impacted its carbon fixation capacity, while the response mechanisms still unclear. …”
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Effect of 26 Years of Intensively Managed Carya cathayensis Stands on Soil Organic Carbon and Fertility by Jiasen Wu, Jianqin Huang, Dan Liu, Jianwu Li, Jinchi Zhang, Hailong Wang

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Synergistic Enhancement of Carbon Sinks and Connectivity: Restoration and Renewal of Ecological Networks in Nanjing, China by Renfei Zhang, Hongye Li, Zhicheng Liu

“…Using the Future Land Use Simulation (FLUS) model, we simulated carbon sequestration changes in 2035, providing insights for risk assessment and future optimization strategies. …”
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Straw return combined with water-saving irrigation increases microbial necromass accumulation by accelerating microbial growth-turnover in Mollisols of paddy fields by Peng Chen, Junzeng Xu, Kechun Wang, Zhongxue Zhang, Zhaoqiang Zhou, Yawei Li, Tiecheng Li, Tangzhe Nie, Qi Wei, Linxian Liao

“…., microbial growth, respiration, carbon use efficiency (CUE) and biomass turnover] of Mollisols responds to different management protocols, and to evaluate their carbon sequestration potential, we examined microbial anabolism, catabolism and necromass accumulation in Mollisols paddy fields under four treatments: (i) controlled irrigation + rice (Oryza sativa L.) straw removal (CI), (ii) flooded irrigation + rice straw removal (FI), (iii) controlled irrigation + rice straw return (CI-SR), and (iv) flooded irrigation + rice straw return (FI-SR). …”
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Optimizing spatial allocation schemes with a focus on carbon fixation services by the integration of GIS and a robust algorithmic approach by Eryan Guo, Jing He

“…By assigning weights to the net present value of wood and carbon sequestration in the objective function, this study explores the impact of social preferences on spatial allocation schemes for forest management. …”
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Exploration of Quantum Chemistry Methods to Explain Mechanism of Mechanochemical Degradation of Typical Organic Pollutants by Xiaohui Zhang, Xiaoqian Xu, Zeya Zhang, Liang Pei, Tongshun Han

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Hypoxia lowers cell carbon and nitrogen content and accelerates sinking of a marine diatom Thalassiosira pseudonana by Bokun Chen, Bokun Chen, Hui Song, Hui Song, Ge Xu, Hongli Ji, Hongli Ji, Xue Yang, Xue Yang, Gang Li

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Evaluation of Ecosystem Services and Tradeoff and Synergy in the Alpine and Canyon Region of Southwest China Based on Multi-source Geographic Data by LIU Jing, XIANG Jiayi, ZHANG Donghai, LAN Mengyao, GUAN Yinghui

“…[Results] (1) From 2000 to 2020, carbon sequestration and water retention services in the alpine and canyon region of southwest China were steadily improved, with annual carbon sequestration increasing from 1 927 g/(m2·a) to 1985 g/(m2·a), and the WR index rising from 0.062 to 0.067. …”
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Research Progress in and Planning Strategies for Multi-scale Measurement of the Efficiency of Urban Blue-Green Infrastructure in Carbon Sink Enhancement and Emission Reduction by Song LIU, Zhaocheng BAI, Dizi LIU, Peiyu SHEN

“…These strategies include: 1) At the site scale, for carbon sequestration and sink enhancement – carbon sink at the source, land balance, and ecological design; for emission reduction – symbiosis with buildings and integration into daily life. 2) At the community scale, for carbon sequestration – overall balance of revenue and expenditure, precise positioning, and proper interconnection of the carbon chain; for emission reduction – incorporation of cool islands and co-construction. 3) At the urban area scale, for carbon sequestration – enhancement of ecological space management and establishment of a carbon-safe pattern; for emission reduction – demand-based layout and organic dispersion. …”
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Network Meta-Analysis of Factors Influencing the Carbon Sink Capacity of Urban Park Green Spaces by Yutong JI, Tianyi LIN, Lian LIU, Xiong LI

“…Planting methods also hold significant importance in enhancing the carbon sequestration of urban parks, such as multi-layered vegetation structures that enhance carbon sink capacity but require careful adjustments to avoid excessive shading and competition, thereby achieving more efficient carbon sequestration. …”
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Enhanced CH4 emissions from global wildfires likely due to undetected small fires by Junri Zhao, Philippe Ciais, Frederic Chevallier, Josep G. Canadell, Ivar R. van der Velde, Emilio Chuvieco, Yang Chen, Qiang Zhang, Kebin He, Bo Zheng

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Non-stationarity analysis of flood extremes under climate change and human activities in the Yuan River Basin, China by Ting Wang, Dehua Mao, Meirong Deng, Chang Feng, Guangwei Hu, Jingya Zhang, Yang Zou

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Effects of forest age and stand density on the growth, soil moisture content, and soil carbon content of Populus simoni plantations in the sandy area of western Liaoning, Northeast... by Hao Chen, Zhaowei Zhang, Xiangyu Yang, Xin Ai, Yutao Wang, Ping Liu

“…Abstract Poplar (Populus simoni) plantations are crucial in the sandy regions of western Liaoning, serving key roles in wind protection, sand stabilization, soil moisture regulation, and carbon sequestration. However, challenges such as suboptimal stand quality and limited ecological benefits persist. …”
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Impacts of Future Climate Change and Xiamen’s Territorial Spatial Planning on Carbon Storage and Sequestration by Wei Zhu, Ting Lan, Lina Tang

“…We employed the FLUS model, the InVEST model, and the variance partitioning analysis (VPA) method to simulate carbon storage under 15 different scenarios that combine climate change scenarios and territorial spatial planning for Xiamen in 2035, and to quantify the individual and combined impacts of territorial spatial planning and climate change on ecosystem carbon sequestration. The results showed that (1) by 2035, Xiamen’s carbon storage capacity is expected to range from 32.66 × 10⁶ Mg to 33.00 × 10⁶ Mg under various scenarios, reflecting a decrease from 2020 levels; (2) the implementation of territorial spatial planning is conducive to preserving Xiamen’s carbon storage, with the urban development boundary proving to be the most effective; (3) carbon storage is greatly affected by climate change, with RCP 4.5 more effective than RCP 8.5 in maintaining higher levels of carbon storage; and (4) the influence of territorial spatial planning on carbon sequestration consistently exceeds that of climate change, particularly under high-emission scenarios, where the regulatory effect of planning is especially significant.…”
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Field and laboratory evaluation of the long-term effect of various organic fertilizers on sandy soil by József Tibor Aranyos, Liyana Zulkipli, Marianna Makádi

“…In addition, the application of sewage sludge compost can be well utilized in agriculture for nutrient supply and improving carbon sequestration of sandy soil.…”
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Global Trends in Conservation Agriculture and Climate Change Research: A Bibliometric Analysis by Julio Román-Vázquez, Rosa M. Carbonell-Bojollo, Óscar Veroz-González, Ligia Maria Maraschi da Silva Piletti, Francisco Márquez-García, L. Javier Cabeza-Ramírez, Emilio J. González-Sánchez

“…While carbon sequestration has been central to CA research, recent studies have expanded to include nitrous oxide and methane emissions, indicating a broadening conceptual framework. …”
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Carbon farming can enhance pollinator resources by H Sardiñas, R Ryals, N Williams

“…This paper focuses on habitat management and farming practices that both increase carbon sequestration and benefit pollinator communities. …”
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Effectiveness Trade-Off Between Green Spaces and Built-Up Land: Evaluating Trade-Off Efficiency and Its Drivers in an Expanding City by Xinyu Dong, Yanmei Ye, Tao Zhou, Dagmar Haase, Angela Lausch

“…Taking a rapidly expanding city as a case study, we comprehensively quantified urban–ecological conditions in four aspects: urban heat island, flood regulating service, habitat quality, and carbon sequestration. These conditions were assessed on 1 km² grids, along with urban land use efficiency at the same spatial scale. …”
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Pasture’s Role in Climate Change Mitigation by Maria Silveira, Rosvel Bracho, Curtis Dell, Abmael Cardoso

“… This new 4-page publication of the UF/IFAS Department of Soil, Water, and Ecosystem Sciences provides information about the role of native and cultivated pastures in climate change mitigation and the opportunities and challenges for improving carbon sequestration in agroecosystems. Climate change mitigation in the context of this publication refers to actions that reduce the rate of climate change. …”
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