2020
DOI: 10.1016/j.agrformet.2020.108022
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Long-term carbon flux and balance in managed and natural coastal forested wetlands of the Southeastern USA

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Cited by 26 publications
(27 citation statements)
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“…Though stand-replacing disturbances (e.g., harvests) lead to a net forest C loss, replanting as part of the rotational cycle will eventually replace the lost carbon. However, if trees do not reach maturity and peak primary productivity before subsequent harvests [4,9], increased harvest intensity could result in net carbon losses as was demonstrated in the positive relationship between harvest intensity and aboveground carbon declines in our results.…”
Section: Discussionmentioning
confidence: 54%
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“…Though stand-replacing disturbances (e.g., harvests) lead to a net forest C loss, replanting as part of the rotational cycle will eventually replace the lost carbon. However, if trees do not reach maturity and peak primary productivity before subsequent harvests [4,9], increased harvest intensity could result in net carbon losses as was demonstrated in the positive relationship between harvest intensity and aboveground carbon declines in our results.…”
Section: Discussionmentioning
confidence: 54%
“…Land use activities and modifications, such as farming, forestry, and even land abandonment, influence carbon storage and flux on the landscape. Agricultural and forestry pressures (as quantified by agricultural pressure and harvest intensity described below) can alter soil properties, increase nutrient runoff, and change vegetation composition, all of which influence carbon pools both in the areas actively managed and on spatially adjacent or nearby lands [4,9]. Land abandonment (e.g., fallow lands) can also change carbon pools by allowing for natural regeneration, providing buffers from storms for nearby lands, and increasing productivity on site or nearby [51].…”
Section: Land Use Driversmentioning
confidence: 99%
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