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  1. Forests are atmospheric carbon sinks, whose natural growth can contribute to climate change mitigation. However, they are also affected by climate change and various other phenomena, for example, the low growt...

    Authors: Mina Hong, Cholho Song, Moonil Kim, Jiwon Kim, Sle-gee Lee, Chul-Hee Lim, Kijong Cho, Yowhan Son and Woo-Kyun Lee
    Citation: Carbon Balance and Management 2022 17:5
  2. The building and construction sectors represent a major source of greenhouse gas (GHG) emissions. Replacing concrete and steel with wood is one potential strategy to decrease emissions. On product level, the d...

    Authors: Tanja Myllyviita, Elias Hurmekoski and Janni Kunttu
    Citation: Carbon Balance and Management 2022 17:4
  3. Cities are a major source of atmospheric CO2; however, understanding the surface CO2 exchange processes that determine the net CO2 flux emitted from each city is challenging owing to the high heterogeneity of urb...

    Authors: Chaerin Park, Sujong Jeong, Moon-Soo Park, Hoonyoung Park, Jeongmin Yun, Sang-Sam Lee and Sung-Hwa Park
    Citation: Carbon Balance and Management 2022 17:3
  4. Wood harvesting and storage (WHS) is a hybrid Nature-Engineering combination method to combat climate change by harvesting wood sustainably and storing it semi-permanently for carbon sequestration. To date, th...

    Authors: Ning Zeng and Henry Hausmann
    Citation: Carbon Balance and Management 2022 17:2
  5. Quantifying the carbon balance of forested ecosystems has been the subject of intense study involving the development of numerous methodological approaches. Forest inventories, processes-based biogeochemical m...

    Authors: Benjamin M. Sleeter, Leonardo Frid, Bronwyn Rayfield, Colin Daniel, Zhiliang Zhu and David C. Marvin
    Citation: Carbon Balance and Management 2022 17:1
  6. The stock dynamics of harvested wood products (HWPs) are a relevant component of anthropogenic carbon cycles. Generally, HWP stock increases are treated as carbon removals from the atmosphere, while stock decr...

    Authors: Chihiro Kayo, Gerald Kalt, Yuko Tsunetsugu, Seiji Hashimoto, Hirotaka Komata, Ryu Noda and Hiroyasu Oka
    Citation: Carbon Balance and Management 2021 16:37
  7. Authors: Johanna Elizabeth Ayala Izurieta, Carmen Omaira Márquez, Víctor Julio García, Carlos Arturo Jara Santillán, Jorge Marcelo Sisti, Nieves Pasqualotto, Shari Van Wittenberghe and Jesús Delegido
    Citation: Carbon Balance and Management 2021 16:35

    The original article was published in Carbon Balance and Management 2021 16:32

  8. Allometric equations are used to estimate biomass and carbon stock of forests. In Ethiopia, despite the presence of large floral diversity, only a few site-specific allometric equations have been developed so ...

    Authors: Abreham Berta Aneseyee, Teshome Soromessa, Eyasu Elias and Gudina Legese Feyisa
    Citation: Carbon Balance and Management 2021 16:34
  9. Amazon palm swamp peatlands are major carbon (C) sinks and reservoirs. In Peru, this ecosystem is widely threatened owing to the recurrent practice of cutting Mauritia flexuosa palms for fruit harvesting. Such de...

    Authors: Nelda Dezzeo, Julio Grandez-Rios, Christopher Martius and Kristell Hergoualc’h
    Citation: Carbon Balance and Management 2021 16:33
  10. Soil organic carbon (SOC) affects essential biological, biochemical, and physical soil functions such as nutrient cycling, water retention, water distribution, and soil structure stability. The Andean páramo k...

    Authors: Johanna Elizabeth Ayala Izurieta, Carmen Omaira Márquez, Víctor Julio García, Carlos Arturo Jara Santillán, Jorge Marcelo Sisti, Nieves Pasqualotto, Shari Van Wittenberghe and Jesús Delegido
    Citation: Carbon Balance and Management 2021 16:32

    The Correction to this article has been published in Carbon Balance and Management 2021 16:35

  11. Understanding how warming influence above-ground biomass in the world’s forests is necessary for quantifying future global carbon budgets. A climate-driven decrease in future carbon stocks could dangerously st...

    Authors: Markku Larjavaara, Xiancheng Lu, Xia Chen and Mikko Vastaranta
    Citation: Carbon Balance and Management 2021 16:31
  12. British Columbia’s (BC) extensive forest resources provide climate change mitigation opportunities that are available to few other jurisdictions. However, as a consequence of the Mountain Pine Beetle outbreak ...

    Authors: Sheng H. Xie, Werner A. Kurz and Paul N. McFarlane
    Citation: Carbon Balance and Management 2021 16:30
  13. Given the large bamboo resource base with considerable potential to act as an important carbon sink, Ethiopia has included bamboo in the national Reducing Emissions from Deforestation and Forest Degradation an...

    Authors: Shiferaw Abebe, Amare Sewnet Minale, Demel Teketay, Durai Jayaraman and Trinh Thang Long
    Citation: Carbon Balance and Management 2021 16:29
  14. Closed basins occupy 21% of the world’s land area and can substantially affect global carbon budgets. Conventional understanding suggests that the terminal areas of closed basins collect water and carbon from ...

    Authors: Yu Li, Xinzhong Zhang, Lingmei Xu, Yuxin Zhang, Wangting Ye and Yichan Li
    Citation: Carbon Balance and Management 2021 16:28
  15. We investigated the spatio-temporal dynamics of soil carbon dioxide (CO2)- and soil methane (CH4)-flux during biological soil crust (BSCs) deposition in a sand-binding area in the eastern Chinese Hobq Desert. The...

    Authors: Bo Wang, Jing Liu, Xin Zhang and Chenglong Wang
    Citation: Carbon Balance and Management 2021 16:27
  16. Forest carbon models are recognized as suitable tools for the reporting and verification of forest carbon stock and stock change, as well as for evaluating the forest management options to enhance the carbon s...

    Authors: Viorel N. B. Blujdea, Richard Sikkema, Ioan Dutca and Gert-Jan Nabuurs
    Citation: Carbon Balance and Management 2021 16:25
  17. Soil organic carbon (SOC) plays a crucial role in the global carbon cycle and terrestrial ecosystem functions. It is widely known that climate change and soil water content (SWC) could influence the SOC dynami...

    Authors: Fubo Zhao, Yiping Wu, Jinyu Hui, Bellie Sivakumar, Xianyong Meng and Shuguang Liu
    Citation: Carbon Balance and Management 2021 16:24
  18. The contribution of EU forests to climate change mitigation in 2021–2025 is assessed through the Forest Reference Levels (FRLs). The FRL is a projected country-level benchmark of net greenhouse gas emissions a...

    Authors: Matteo Vizzarri, Roberto Pilli, Anu Korosuo, Viorel N. B. Blujdea, Simone Rossi, Giulia Fiorese, Raul Abad-Viñas, Rene R. Colditz and Giacomo Grassi
    Citation: Carbon Balance and Management 2021 16:23
  19. Understanding a carbon budget from a national perspective is essential for establishing effective plans to reduce atmospheric CO2 growth. The national characteristics of carbon budgets are reflected in atmospheri...

    Authors: Jeongmin Yun and Sujong Jeong
    Citation: Carbon Balance and Management 2021 16:22
  20. Forests in the Far North of Ontario (FNO), Canada, are likely the least studied in North America, and quantifying their current and future carbon (C) stocks is the first step in assessing their potential role ...

    Authors: Michael T. Ter-Mikaelian, Alemu Gonsamo, Jing M. Chen, Gang Mo and Jiaxin Chen
    Citation: Carbon Balance and Management 2021 16:21
  21. Forests provide the largest terrestrial sink of carbon (C). However, these C stocks are threatened by forest land conversion. Land use change has global impacts and is a critical component when studying C flux...

    Authors: Lucia A. Fitts, Matthew B. Russell, Grant M. Domke and Joseph K. Knight
    Citation: Carbon Balance and Management 2021 16:20
  22. Legacy data are unique occasions for estimating soil organic carbon (SOC) concentration changes and spatial variability, but their use showed limitations due to the sampling schemes adopted and improvements ma...

    Authors: Calogero Schillaci, Sergio Saia, Aldo Lipani, Alessia Perego, Claudio Zaccone and Marco Acutis
    Citation: Carbon Balance and Management 2021 16:19
  23. Soil CO2 efflux is considered to mainly derive from biotic activities, while potential contribution of abiotic processes has been mostly neglected especially in productive ecosystems with highly active soil biota...

    Authors: Xiaomei Chen, Muying Liu, Zhanying Xu and Hui Wei
    Citation: Carbon Balance and Management 2021 16:18
  24. Removals caused by both natural and anthropogenic drivers such as logging and fire in miombo woodlands causes substantial carbon emissions. Here we present drivers and their effects on the variations on the nu...

    Authors: Bernardol John Manyanda, Emmanuel F. Nzunda, Wilson Ancelm Mugasha and Rogers Ernest Malimbwi
    Citation: Carbon Balance and Management 2021 16:16
  25. The climate mitigation target of limiting the temperature increase below 2 °C above the pre-industrial levels requires the efforts from all countries. Tracking the trajectory of the land carbon sink efficiency...

    Authors: Lei Zhu, Philippe Ciais, Ana Bastos, Ashley P. Ballantyne, Frederic Chevallier, Thomas Gasser, Masayuki Kondo, Julia Pongratz, Christian Rödenbeck and Wei Li
    Citation: Carbon Balance and Management 2021 16:15
  26. Agroforestry (AF) is an ancient tradition in Ethiopian dryland farming system. Several studies have examined system design, soil fertility management and system interactions, but the biodiversity and mitigatio...

    Authors: Ashenafi Manaye, Berihu Tesfamariam, Musse Tesfaye, Adefires Worku and Yirga Gufi
    Citation: Carbon Balance and Management 2021 16:14
  27. The current EU LULUCF regulation calls for member state-specific Forest Reference Levels (FRLs) for benchmark in the accounting of greenhouse gas emissions and removals of managed forest land during the compli...

    Authors: Jari Vauhkonen, Antti Mutanen, Tuula Packalen and Antti Asikainen
    Citation: Carbon Balance and Management 2021 16:13
  28. Under the escalating threat to sustainable development from the global increase in carbon dioxide concentrations, the variations in carbon flux in the farmland ecosystem and their influencing factors have attr...

    Authors: Hui Guo, Sien Li, Fuk-Ling Wong, Shujing Qin, Yahui Wang, Danni Yang and Hon-Ming Lam
    Citation: Carbon Balance and Management 2021 16:12
  29. The homestead forests of Bangladesh occupy 0.27 million hectares (10% of the total forested area) and have potential to store carbon (C) and conserve biodiversity. Small scale forestry practices, however, are ...

    Authors: Tarit Kumar Baul, Avinanda Chakraborty, Rajasree Nandi, Mohammed Mohiuddin, Antti Kilpeläinen and Taslima Sultana
    Citation: Carbon Balance and Management 2021 16:11
  30. There are high estimates of the potential climate change mitigation opportunity of using wood products. A significant part of those estimates depends on long-lived wood products in the construction sector repl...

    Authors: Christina Howard, Caren C. Dymond, Verena C. Griess, Darius Tolkien-Spurr and G. Cornelis van Kooten
    Citation: Carbon Balance and Management 2021 16:9
  31. Although great efforts have been made to quantify mangrove carbon stocks, accurate estimations of below-ground carbon stocks remain unreliable. In this study, we examined the distribution patterns of mangrove ...

    Authors: Yuchen Meng, Jiankun Bai, Ruikun Gou, Xiaowei Cui, Jianxiang Feng, Zheng Dai, Xiaoping Diao, Xiaoshan Zhu and Guanghui Lin
    Citation: Carbon Balance and Management 2021 16:8
  32. Excessive application of chemical fertilizer has resulted in lower nitrogen uptake and utilization efficiency of crops, decreasing soil fertility, increasing greenhouse gas emissions, and worse environmental p...

    Authors: Ying Liu, Haiying Tang, Pete Smith, Chuan Zhong and Guoqin Huang
    Citation: Carbon Balance and Management 2021 16:7
  33. Forest disturbance induced changes in the coupling of forest carbon and water have important implications for ecosystem functioning and sustainable forest management. However, this is rarely investigated at th...

    Authors: Krysta Giles-Hansen, Xiaohua Wei and Yiping Hou
    Citation: Carbon Balance and Management 2021 16:6
  34. Since the 1990’s, afforestation programs in the páramo have been implemented to offset carbon emissions through carbon sequestration, mainly using pine plantations. However, several studies have indicated that...

    Authors: Carlos Quiroz Dahik, Patricio Crespo, Bernd Stimm, Reinhard Mosandl, Jorge Cueva, Patrick Hildebrandt and Michael Weber
    Citation: Carbon Balance and Management 2021 16:5
  35. Networks of tower-based CO2 mole fraction sensors have been deployed by various groups in and around cities across the world to quantify anthropogenic CO2 emissions from metropolitan areas. A critical aspect in t...

    Authors: Natasha L. Miles, Kenneth J. Davis, Scott J. Richardson, Thomas Lauvaux, Douglas K. Martins, A. J. Deng, Nikolay Balashov, Kevin R. Gurney, Jianming Liang, Geoff Roest, Jonathan A. Wang and Jocelyn C. Turnbull
    Citation: Carbon Balance and Management 2021 16:4
  36. Assessing cumulative effects of anthropogenic and natural disturbances on forest carbon (C) stocks and fluxes, because of their relevance to climate change, is a requirement of environmental impact assessments...

    Authors: C. H. Shaw, S. Rodrigue, M. F. Voicu, R. Latifovic, D. Pouliot, S. Hayne, M. Fellows and W. A. Kurz
    Citation: Carbon Balance and Management 2021 16:3
  37. Qatar is one of the countries with the highest carbon (C) footprints per capita in the world with an increasing population and food demand. Furthermore, the international blockade by some countries that is aff...

    Authors: José Luis Vicente-Vicente and Annette Piorr
    Citation: Carbon Balance and Management 2021 16:2
  38. With a lack of United States federal policy to address climate change, cities, the private sector, and universities have shouldered much of the work to reduce carbon dioxide (CO2) and other greenhouse gas emissio...

    Authors: Wiley J. Hundertmark, Marissa Lee, Ian A. Smith, Ashley H. Y. Bang, Vivien Chen, Conor K. Gately, Pamela H. Templer and Lucy R. Hutyra
    Citation: Carbon Balance and Management 2021 16:1
  39. The fast-growing introduced mangrove Sonneratia apetala is widely used for mangrove afforestation and reforestation in China. Some studies suggested that this exotic species outperforms native species in terms of...

    Authors: Ziying He, Huaye Sun, Yisheng Peng, Zhan Hu, Yingjie Cao and Shing Yip Lee
    Citation: Carbon Balance and Management 2020 15:28
  40. Mangrove forests have gained recognition for their potential role in climate change mitigation due to carbon sequestration in live trees, and carbon storage in the sediments trapped by mangrove tree roots and ...

    Authors: Georgia de Jong Cleyndert, Aida Cuni-Sanchez, Hamidu A. Seki, Deo D. Shirima, Pantaleo K. T. Munishi, Neil Burgess, Kim Calders and Robert Marchant
    Citation: Carbon Balance and Management 2020 15:27
  41. Quantifying CO2 emissions from cities is of great importance because cities contribute more than 70% of the global total CO2 emissions. As the largest urbanized megalopolis region in northern China, the Beijing-T...

    Authors: Pengfei Han, Ning Zeng, Tomohiro Oda, Wen Zhang, Xiaohui Lin, Di Liu, Qixiang Cai, Xiaolin Ma, Wenjun Meng, Guocheng Wang, Rong Wang and Bo Zheng
    Citation: Carbon Balance and Management 2020 15:25
  42. Water-use efficiency (WUE) represents the coupling of forest carbon and water. Little is known about the responses of WUE to thinning at multiple spatial scales. The objective of this research was to use field...

    Authors: Yi Wang, Antonio D. del Campo, Xiaohua Wei, Rita Winkler, Wanyi Liu and Qiang Li
    Citation: Carbon Balance and Management 2020 15:24
  43. Organic viticulture can generate a range of ecosystem services including supporting biodiversity, reducing the use of conventional pesticides and fertilizers, and mitigating greenhouse gas emissions through lo...

    Authors: J. N. Williams, J. A. Morandé, M. G. Vaghti, J Medellín-Azuara and J. H. Viers
    Citation: Carbon Balance and Management 2020 15:23
  44. Cities contribute more than 70% of global anthropogenic carbon dioxide (CO2) emissions and are leading the effort to reduce greenhouse gas (GHG) emissions through sustainable planning and development. However, ur...

    Authors: Geoffrey S. Roest, K. R. Gurney, S. M. Miller and J. Liang
    Citation: Carbon Balance and Management 2020 15:22
  45. The potential contributions from forest-based greenhouse gas (GHG) mitigation actions need to be quantified to develop pathways towards net negative emissions. Here we present results from a comparative analys...

    Authors: C. E. Smyth, Z. Xu, T. C. Lemprière and W. A. Kurz
    Citation: Carbon Balance and Management 2020 15:21

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