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Climate benefits of Amazon secondary forests – recent advances and research needs

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Climate benefits of Amazon secondary forests – recent advances and research needs. / Baker, Jessica C.A.; Adami, Marcos; Silva-Junior, Celso H. L. et al.
In: Environmental Research Letters, Vol. 20, No. 4, 043001, 30.04.2025.

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Harvard

Baker, JCA, Adami, M, Silva-Junior, CHL, Sadeck, L, Smith, C, Heinrich, V, Barlow, J, Ferreira, J, Cassol, H, Anderson, LO, von Randow, C, Argles, APK, von Randow, R, Elias, F, Aragao, LEOC, Sitch, S & Spracklen, DV 2025, 'Climate benefits of Amazon secondary forests – recent advances and research needs', Environmental Research Letters, vol. 20, no. 4, 043001. https://doi.org/10.1088/1748-9326/adb984

APA

Baker, J. C. A., Adami, M., Silva-Junior, C. H. L., Sadeck, L., Smith, C., Heinrich, V., Barlow, J., Ferreira, J., Cassol, H., Anderson, L. O., von Randow, C., Argles, A. P. K., von Randow, R., Elias, F., Aragao, L. E. O. C., Sitch, S., & Spracklen, D. V. (2025). Climate benefits of Amazon secondary forests – recent advances and research needs. Environmental Research Letters, 20(4), Article 043001. https://doi.org/10.1088/1748-9326/adb984

Vancouver

Baker JCA, Adami M, Silva-Junior CHL, Sadeck L, Smith C, Heinrich V et al. Climate benefits of Amazon secondary forests – recent advances and research needs. Environmental Research Letters. 2025 Apr 30;20(4):043001. Epub 2025 Mar 14. doi: 10.1088/1748-9326/adb984

Author

Baker, Jessica C.A. ; Adami, Marcos ; Silva-Junior, Celso H. L. et al. / Climate benefits of Amazon secondary forests – recent advances and research needs. In: Environmental Research Letters. 2025 ; Vol. 20, No. 4.

Bibtex

@article{838651e0d1824dad955672cbb4b95aff,
title = "Climate benefits of Amazon secondary forests – recent advances and research needs",
abstract = "A quarter of the deforested Amazon has regrown as secondary tropical forest and yet the climatic importance of these complex regenerating landscapes is only beginning to be recognised. Advances in satellite remote-sensing have transformed our ability to detect and map changes in forest cover, while detailed ground-based measurements from permanent monitoring plots and eddy-covariance flux towers are providing new insights into the role of secondary forests in the climate system. This review summarises how progress in data availability on Amazonian secondary forests has led to better understanding of their influence on global, regional and local climate through carbon and non-carbon climate benefits. We discuss the climate implications of secondary forest disturbance and the progress in representing forest regrowth in climate models. Much remains to be learned about how secondary forests function and interact with climate, how these processes change with forest age, and the resilience of secondary forest ecosystems faced with increasing anthropogenic disturbance. Secondary forests face numerous threats: half of secondary forests in the Brazilian legal Amazon were 11 years old or younger in 2023. On average, 1–2% of Amazon secondary forests burn each year, threatening the permanence of sequestered carbon. The forests that burn are predominantly young (in 2023, 55% of burned secondary forests were <6 years old, <4% were over 30 years old). In the context of legally binding international climate treaties and a rapidly changing political backdrop, we discuss the opportunities and challenges of encouraging tropical forest restoration to mitigate anthropogenic climate change. Amazon secondary forests could make a valuable contribution to Brazil{\textquoteright}s Nationally Determined Contribution provided there are robust systems in place to ensure permanence. We consider how to improve communication between scientists and decision-makers and identify pressing areas of future research.",
author = "Baker, {Jessica C.A.} and Marcos Adami and Silva-Junior, {Celso H. L.} and Luis Sadeck and Callum Smith and Viola Heinrich and Jos Barlow and Joice Ferreira and Henrique Cassol and Anderson, {Liana O.} and {von Randow}, Celso and Argles, {Arthur P. K.} and {von Randow}, Rita and Fernando Elias and Aragao, {Luiz E.O.C} and Stephen Sitch and Spracklen, {Dominick V}",
year = "2025",
month = apr,
day = "30",
doi = "10.1088/1748-9326/adb984",
language = "English",
volume = "20",
journal = "Environmental Research Letters",
issn = "1748-9326",
publisher = "IOP Publishing Ltd",
number = "4",

}

RIS

TY - JOUR

T1 - Climate benefits of Amazon secondary forests – recent advances and research needs

AU - Baker, Jessica C.A.

AU - Adami, Marcos

AU - Silva-Junior, Celso H. L.

AU - Sadeck, Luis

AU - Smith, Callum

AU - Heinrich, Viola

AU - Barlow, Jos

AU - Ferreira, Joice

AU - Cassol, Henrique

AU - Anderson, Liana O.

AU - von Randow, Celso

AU - Argles, Arthur P. K.

AU - von Randow, Rita

AU - Elias, Fernando

AU - Aragao, Luiz E.O.C

AU - Sitch, Stephen

AU - Spracklen, Dominick V

PY - 2025/4/30

Y1 - 2025/4/30

N2 - A quarter of the deforested Amazon has regrown as secondary tropical forest and yet the climatic importance of these complex regenerating landscapes is only beginning to be recognised. Advances in satellite remote-sensing have transformed our ability to detect and map changes in forest cover, while detailed ground-based measurements from permanent monitoring plots and eddy-covariance flux towers are providing new insights into the role of secondary forests in the climate system. This review summarises how progress in data availability on Amazonian secondary forests has led to better understanding of their influence on global, regional and local climate through carbon and non-carbon climate benefits. We discuss the climate implications of secondary forest disturbance and the progress in representing forest regrowth in climate models. Much remains to be learned about how secondary forests function and interact with climate, how these processes change with forest age, and the resilience of secondary forest ecosystems faced with increasing anthropogenic disturbance. Secondary forests face numerous threats: half of secondary forests in the Brazilian legal Amazon were 11 years old or younger in 2023. On average, 1–2% of Amazon secondary forests burn each year, threatening the permanence of sequestered carbon. The forests that burn are predominantly young (in 2023, 55% of burned secondary forests were <6 years old, <4% were over 30 years old). In the context of legally binding international climate treaties and a rapidly changing political backdrop, we discuss the opportunities and challenges of encouraging tropical forest restoration to mitigate anthropogenic climate change. Amazon secondary forests could make a valuable contribution to Brazil’s Nationally Determined Contribution provided there are robust systems in place to ensure permanence. We consider how to improve communication between scientists and decision-makers and identify pressing areas of future research.

AB - A quarter of the deforested Amazon has regrown as secondary tropical forest and yet the climatic importance of these complex regenerating landscapes is only beginning to be recognised. Advances in satellite remote-sensing have transformed our ability to detect and map changes in forest cover, while detailed ground-based measurements from permanent monitoring plots and eddy-covariance flux towers are providing new insights into the role of secondary forests in the climate system. This review summarises how progress in data availability on Amazonian secondary forests has led to better understanding of their influence on global, regional and local climate through carbon and non-carbon climate benefits. We discuss the climate implications of secondary forest disturbance and the progress in representing forest regrowth in climate models. Much remains to be learned about how secondary forests function and interact with climate, how these processes change with forest age, and the resilience of secondary forest ecosystems faced with increasing anthropogenic disturbance. Secondary forests face numerous threats: half of secondary forests in the Brazilian legal Amazon were 11 years old or younger in 2023. On average, 1–2% of Amazon secondary forests burn each year, threatening the permanence of sequestered carbon. The forests that burn are predominantly young (in 2023, 55% of burned secondary forests were <6 years old, <4% were over 30 years old). In the context of legally binding international climate treaties and a rapidly changing political backdrop, we discuss the opportunities and challenges of encouraging tropical forest restoration to mitigate anthropogenic climate change. Amazon secondary forests could make a valuable contribution to Brazil’s Nationally Determined Contribution provided there are robust systems in place to ensure permanence. We consider how to improve communication between scientists and decision-makers and identify pressing areas of future research.

U2 - 10.1088/1748-9326/adb984

DO - 10.1088/1748-9326/adb984

M3 - Journal article

VL - 20

JO - Environmental Research Letters

JF - Environmental Research Letters

SN - 1748-9326

IS - 4

M1 - 043001

ER -