Results 261 to 270 of about 5,666 (297)

An integrative methodology to estimate high-resolution carbon stock and fluxes: a case study in the old-growth forests of the Chilean Patagonia. [PDF]

Carbon Balance Manag
Fuentes-Castillo T, Grau-Neira A, Morales-Santana E, Rus-Valledor D, Trejo-Cancino D, Pascual A, Perez-Quezada JF.   +6 more
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Unveiling spatial variations of high forest live biomass carbon stocks of Gabon using advanced remote sensing techniques

Le Bienfaiteur Sagang, Samuel Favrichon, Ricardo Dalagnol, Elsa M. Ordway, Vincent P. Medjibe, Francis Manfoumbi, Conan Vassily Obame, Fabien Wagner, Stephanie P. George‐Chacón, Lee White, Sassan Saatchi   +10 more
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Substantial Deep-Soil Carbon Losses Outweigh Topsoil Gains in European Beech Forests Since the 1980s. [PDF]

Glob Chang Biol
Mayer M, Dolschak K, Winter Artusio E, Grabner M, Tatzber M, Ahmed IU, Wächter E, Türtscher S, Lindebner L, Berger IK, Berger P, Wanek W, Berger TW.   +12 more
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Pyrogenic carbon contribution to tropical savanna soil carbon storage. [PDF]

Nat Commun
Zhou Y, Karp AT, Schmidt A, Coetsee C.
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Increased Belowground Carbon Allocation Reduces Soil Carbon Losses Under Long-Term Warming. [PDF]

Glob Chang Biol
Schindlbacher A, Kwatcho Kengdo S, Heinzle J, Tian Y, Mayer M, Gadermaier J, Shi C, Urbina Malo C, Liu X, Inselsbacher E, Jandl R, Sierra CA, Wanek W, Borken W.   +13 more
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Forest aboveground biomass stock and resilience in a tropical landscape of Thailand

, 2019
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Influence of elaeicultural agroecosystem types on carbon storage in a monomodal rainforest agroecological zone

NKOUÉ BB, LONTSI RT, CHIMI PM, II JAO, ETOUNDI LFM, NANA ENN, EKANE CM, KAMDEM MEK, YONGA G, ZOCK B, TCHAPDA C, ZOA Pa, ESSONO DM, BANOHO LPRK, MALA AW, GUILLAUME T.   +15 more
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Temporal Assessment of Growing Stock, Biomass and Carbon Stock of Indian Forests

Climatic Change, 2006
The dynamics of terrestrial ecosystems depends on interactions between carbon, nutrient and hydrological cycles. Terrestrial ecosystems retain carbon in live biomass (aboveground and belowground), decomposing organic matter, and soil. Carbon is exchanged naturally between these systems and the atmosphere through photosynthesis, respiration ...
R. K. Manhas, J. D. S. Negi, Rajesh Kumar, P. S. Chauhan   +3 more
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Biomass carbon stocks in China’s forests between 2000 and 2050: A prediction based on forest biomass-age relationships

Science China Life Sciences, 2010
China's forests are characterized by young forest age, low carbon density and a large area of planted forests, and thus have high potential to act as carbon sinks in the future. Using China's national forest inventory data during 1994-1998 and 1999-2003, and direct field measurements, we investigated the relationships between forest biomass density and
Bing, Xu, ZhaoDi, Guo, ShiLong, Piao, JingYun, Fang   +3 more
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Growing stock-based forest biomass estimate for India

Biomass and Bioenergy, 2002
The total standing biomass (including above ground and below ground) in Indian forests for the year 1992–93 was estimated using information on state and union-territory field inventory based growing stock volume and the corresponding area under three different crown density classes (very dense forests with crown cover 70 percent and above, dense forest
openaire   +1 more source