Direct evidence for phosphorus limitation on Amazon forest productivity
The productivity of rainforests growing on highly weathered tropical soils is expected to be limited by phosphorus availability1. Yet, controlled fertilization experiments have been unable to demonstrate a dominant role for phosphorus in controlling tropical forest net primary productivity. Recent s...
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sg-ntu-dr.10356-1640842023-01-04T05:37:47Z Direct evidence for phosphorus limitation on Amazon forest productivity Cunha, Hellen Fernanda Viana Andersen, Kelly M. Lugli, Laynara Figueiredo Santana, Flavia Delgado Aleixo, Izabela Fonseca Moraes, Anna Martins Garcia, Sabrina Di Ponzio, Raffaello Mendoza, Erick Oblitas Brum, Bárbara Rosa, Jéssica Schmeisk Cordeiro, Amanda L. Portela, Bruno Takeshi Tanaka Ribeiro, Gyovanni Coelho, Sara Deambrozi de Souza, Sheila Trierveiler Silva, Lara Siebert Antonieto, Felipe Pires, Maria Salomão, Ana Cláudia Miron, Ana Caroline de Assis, Rafael L. Domingues, Tomas F. Aragão, Luiz E. O. C. Meir, Patrick Camargo, José Luis Manzi, Antonio Ocimar Nagy, Laszlo Mercado, Lina M. Hartley, Iain P. Quesada, Carlos Alberto Asian School of the Environment Science::Geology Net Primary Productivity Nutrient Limitation The productivity of rainforests growing on highly weathered tropical soils is expected to be limited by phosphorus availability1. Yet, controlled fertilization experiments have been unable to demonstrate a dominant role for phosphorus in controlling tropical forest net primary productivity. Recent syntheses have demonstrated that responses to nitrogen addition are as large as to phosphorus2, and adaptations to low phosphorus availability appear to enable net primary productivity to be maintained across major soil phosphorus gradients3. Thus, the extent to which phosphorus availability limits tropical forest productivity is highly uncertain. The majority of the Amazonia, however, is characterized by soils that are more depleted in phosphorus than those in which most tropical fertilization experiments have taken place2. Thus, we established a phosphorus, nitrogen and base cation addition experiment in an old growth Amazon rainforest, with a low soil phosphorus content that is representative of approximately 60% of the Amazon basin. Here we show that net primary productivity increased exclusively with phosphorus addition. After 2 years, strong responses were observed in fine root (+29%) and canopy productivity (+19%), but not stem growth. The direct evidence of phosphorus limitation of net primary productivity suggests that phosphorus availability may restrict Amazon forest responses to CO2 fertilization4, with major implications for future carbon sequestration and forest resilience to climate change. The authors acknowledge funding from the UK Natural Environment Research Council (NERC), grant number NE/L007223/1. This is publication 850 in the technical series of the BDFFP. C.A.Q. acknowledges the grants from Brazilian National Council for Scientific and Technological Development (CNPq) CNPq/LBA 68/2013, CNPq/MCTI/FNDCT no. 18/2021 and his productivity grant. C.A.Q., H.F.V.C., F.D.S., I.A., L.F.L., E.O.M. and S.G. acknowledge the AmazonFACE programme for financial support in cooperation with Coordination for the Improvement of Higher Education Personnel (CAPES) and the National Institute of Amazonian Research as part of the grants CAPES-INPA/88887.154643/2017-00 and 88881.154644/2017-01. T.F.D. acknowledges funds from FundacAo de Amparo a Pesquisa do Estado de SAo Paulo (FAPESP), grant 2015/50488-5, and the Partnership for Enhanced Engagement in Research (PEER) programme grant AID-OAA-A-11-00012. L.E.O.C.A. thanks CNPq (314416/2020-0). 2023-01-04T05:37:47Z 2023-01-04T05:37:47Z 2022 Journal Article Cunha, H. F. V., Andersen, K. M., Lugli, L. F., Santana, F. D., Aleixo, I. F., Moraes, A. M., Garcia, S., Di Ponzio, R., Mendoza, E. O., Brum, B., Rosa, J. S., Cordeiro, A. L., Portela, B. T. T., Ribeiro, G., Coelho, S. D., de Souza, S. T., Silva, L. S., Antonieto, F., Pires, M., ...Quesada, C. A. (2022). Direct evidence for phosphorus limitation on Amazon forest productivity. Nature, 608(7923), 558-562. https://dx.doi.org/10.1038/s41586-022-05085-2 0028-0836 https://hdl.handle.net/10356/164084 10.1038/s41586-022-05085-2 35948632 2-s2.0-85135832346 7923 608 558 562 en Nature © 2022 The Author(s), under exclusive licence to Springer Nature Limited. All rights reserved. |
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Science::Geology Net Primary Productivity Nutrient Limitation Cunha, Hellen Fernanda Viana Andersen, Kelly M. Lugli, Laynara Figueiredo Santana, Flavia Delgado Aleixo, Izabela Fonseca Moraes, Anna Martins Garcia, Sabrina Di Ponzio, Raffaello Mendoza, Erick Oblitas Brum, Bárbara Rosa, Jéssica Schmeisk Cordeiro, Amanda L. Portela, Bruno Takeshi Tanaka Ribeiro, Gyovanni Coelho, Sara Deambrozi de Souza, Sheila Trierveiler Silva, Lara Siebert Antonieto, Felipe Pires, Maria Salomão, Ana Cláudia Miron, Ana Caroline de Assis, Rafael L. Domingues, Tomas F. Aragão, Luiz E. O. C. Meir, Patrick Camargo, José Luis Manzi, Antonio Ocimar Nagy, Laszlo Mercado, Lina M. Hartley, Iain P. Quesada, Carlos Alberto Direct evidence for phosphorus limitation on Amazon forest productivity |
| description |
The productivity of rainforests growing on highly weathered tropical soils is expected to be limited by phosphorus availability1. Yet, controlled fertilization experiments have been unable to demonstrate a dominant role for phosphorus in controlling tropical forest net primary productivity. Recent syntheses have demonstrated that responses to nitrogen addition are as large as to phosphorus2, and adaptations to low phosphorus availability appear to enable net primary productivity to be maintained across major soil phosphorus gradients3. Thus, the extent to which phosphorus availability limits tropical forest productivity is highly uncertain. The majority of the Amazonia, however, is characterized by soils that are more depleted in phosphorus than those in which most tropical fertilization experiments have taken place2. Thus, we established a phosphorus, nitrogen and base cation addition experiment in an old growth Amazon rainforest, with a low soil phosphorus content that is representative of approximately 60% of the Amazon basin. Here we show that net primary productivity increased exclusively with phosphorus addition. After 2 years, strong responses were observed in fine root (+29%) and canopy productivity (+19%), but not stem growth. The direct evidence of phosphorus limitation of net primary productivity suggests that phosphorus availability may restrict Amazon forest responses to CO2 fertilization4, with major implications for future carbon sequestration and forest resilience to climate change. |
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Asian School of the Environment |
| author_facet |
Asian School of the Environment Cunha, Hellen Fernanda Viana Andersen, Kelly M. Lugli, Laynara Figueiredo Santana, Flavia Delgado Aleixo, Izabela Fonseca Moraes, Anna Martins Garcia, Sabrina Di Ponzio, Raffaello Mendoza, Erick Oblitas Brum, Bárbara Rosa, Jéssica Schmeisk Cordeiro, Amanda L. Portela, Bruno Takeshi Tanaka Ribeiro, Gyovanni Coelho, Sara Deambrozi de Souza, Sheila Trierveiler Silva, Lara Siebert Antonieto, Felipe Pires, Maria Salomão, Ana Cláudia Miron, Ana Caroline de Assis, Rafael L. Domingues, Tomas F. Aragão, Luiz E. O. C. Meir, Patrick Camargo, José Luis Manzi, Antonio Ocimar Nagy, Laszlo Mercado, Lina M. Hartley, Iain P. Quesada, Carlos Alberto |
| format |
Article |
| author |
Cunha, Hellen Fernanda Viana Andersen, Kelly M. Lugli, Laynara Figueiredo Santana, Flavia Delgado Aleixo, Izabela Fonseca Moraes, Anna Martins Garcia, Sabrina Di Ponzio, Raffaello Mendoza, Erick Oblitas Brum, Bárbara Rosa, Jéssica Schmeisk Cordeiro, Amanda L. Portela, Bruno Takeshi Tanaka Ribeiro, Gyovanni Coelho, Sara Deambrozi de Souza, Sheila Trierveiler Silva, Lara Siebert Antonieto, Felipe Pires, Maria Salomão, Ana Cláudia Miron, Ana Caroline de Assis, Rafael L. Domingues, Tomas F. Aragão, Luiz E. O. C. Meir, Patrick Camargo, José Luis Manzi, Antonio Ocimar Nagy, Laszlo Mercado, Lina M. Hartley, Iain P. Quesada, Carlos Alberto |
| author_sort |
Cunha, Hellen Fernanda Viana |
| title |
Direct evidence for phosphorus limitation on Amazon forest productivity |
| title_short |
Direct evidence for phosphorus limitation on Amazon forest productivity |
| title_full |
Direct evidence for phosphorus limitation on Amazon forest productivity |
| title_fullStr |
Direct evidence for phosphorus limitation on Amazon forest productivity |
| title_full_unstemmed |
Direct evidence for phosphorus limitation on Amazon forest productivity |
| title_sort |
direct evidence for phosphorus limitation on amazon forest productivity |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164084 |
| _version_ |
1754611283770998784 |