Fine roots stimulate nutrient release during early stages of leaf litter decomposition in a Central Amazon rainforest

Nathielly P. Martins; Lucia Fuchslueger; Katrin Fleischer; Kelly M. Andersen; Rafael L. Assis; Fabricio B. Baccaro; Plínio B. Camargo; Amanda L. Cordeiro; Adriana Grandis; Iain P. Hartley; Florian Hofhansl; Laynara F. Lugli; David M. Lapola; Juliane G. Menezes; Richard J. Norby; Anja Rammig; Jessica S. Rosa; Karst J. Schaap; Bruno Takeshi; Oscar J. Valverde-Barrantes; Carlos A. Quesada

doi:10.1007/s11104-021-05148-9

Fine roots stimulate nutrient release during early stages of leaf litter decomposition in a Central Amazon rainforest

Nathielly P. Martins, Lucia Fuchslueger, Katrin Fleischer, Kelly M. Andersen, Rafael L. Assis, Fabricio B. Baccaro, Plínio B. Camargo, Amanda L. Cordeiro, Adriana Grandis, Iain P. Hartley, Florian Hofhansl, Laynara F. Lugli, David M. Lapola, Juliane G. Menezes, Richard J. Norby, Anja Rammig, Jessica S. Rosa, Karst J. Schaap, Bruno Takeshi, Oscar J. Valverde-BarrantesCarlos A. Quesada

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Purpose: Large parts of the Amazon rainforest grow on weathered soils depleted in phosphorus and rock-derived cations. We tested the hypothesis that in this ecosystem, fine roots stimulate decomposition and nutrient release from leaf litter biochemically by releasing enzymes, and by exuding labile carbon stimulating microbial decomposers. Methods: We monitored leaf litter decomposition in a Central Amazon tropical rainforest, where fine roots were either present or excluded, over 188 days and added labile carbon substrates (glucose and citric acid) in a fully factorial design. We tracked litter mass loss, remaining carbon, nitrogen, phosphorus and cation concentrations, extracellular enzyme activity and microbial carbon and nutrient concentrations. Results: Fine root presence did not affect litter mass loss but significantly increased the loss of phosphorus and cations from leaf litter. In the presence of fine roots, acid phosphatase activity was 43.2% higher, while neither microbial stoichiometry, nor extracellular enzyme activities targeting carbon- and nitrogen-containing compounds changed. Glucose additions increased phosphorus loss from litter when fine roots were present, and enhanced phosphatase activity in root exclusions. Citric acid additions reduced litter mass loss, microbial biomass nitrogen and phosphorus, regardless of fine root presence or exclusion. Conclusions: We conclude that plant roots release significant amounts of acid phosphatases into the litter layer and mobilize phosphorus without affecting litter mass loss. Our results further indicate that added labile carbon inputs (i.e. glucose) can stimulate acid phosphatase production by microbial decomposers, highlighting the potential importance of plant-microbial feedbacks in tropical forest ecosystems.

Original language	English
Pages (from-to)	287-303
Journal	Plant and Soil
Volume	469
Issue number	1-2
DOIs	https://doi.org/10.1007/s11104-021-05148-9
Publication status	Published - 1 Dec 2021
Externally published	Yes

Funding

We thank Erison Gomes and the Thematic Laboratory for Soils and Plants (Laboratório Temático de Solos e Plantas—LTSP) at INPA, Manaus, for helping with the nutrient analyses, as well as Luciano Castilho for the logistical support and leaf litter collection. We also thank the LBA Program and its staff which granted us field and operational support at the ZF-2 LBA base, as well as the Division of Terrestrial Ecosystem Research at University of Vienna. The authors would like to thank Flavia Santana for helpful suggestions and comments on previous versions of the manuscript, as well as Dr. Emma J. Sayer and two anonymous reviewers for their constructive comments. In memory of Geraldo Pires da Silva. The AmazonFACE program was funded by the Inter-American Development Bank through a technical cooperation agreement with the Brazilian Ministry of Science, Technology, Innovation and Communications (Grant BR-T1284), and by Brazil’s Coordination for the Improvement of Higher Education Personnel (CAPES) Grants 23038.007722/2014-77 and 88881.154644/2017-01, as well as by the Amazonas Research Foundation (FAPEAM) Grant 2649/2014. NPM and KS received grants from CAPES. LF was supported by the European Research Council Synergy grant #610028 Imbalance-P and by the European Union’s Horizon 2020 research and innovation program under the Marie Sklodovska-Curie grant agreement No 847693 (REWIRE). IPH and KMA would like to acknowledge UK Natural Environment Research Council grant NE/L007223/1. KF acknowledges funding by the DFG Grant RA 2060/5-1. LFL would like to acknowledge CAPES for support (88887.360170/2019-00). DML was supported by a FAPESP grant (2015/02537-7).

Funders	Funder number
Brazil’s Coordination for the Improvement of Higher Education Personnel
Laboratório Temático de Solos e Plantas
Marie Sklodovska-Curie
Thematic Laboratory for Soils and Plants
Inter-American Development Bank
Horizon 2020 Framework Programme	847693
Natural Environment Research Council	NE/L007223/1
European Research Council	610028 Imbalance-P
Deutsche Forschungsgemeinschaft	88887.360170/2019-00, RA 2060/5-1
Fundação de Amparo à Pesquisa do Estado de São Paulo	2015/02537-7
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior	23038.007722/2014-77, 88881.154644/2017-01
Universität Wien
Fundação de Amparo à Pesquisa do Estado do Amazonas	2649/2014
Ministério da Ciência, Tecnologia, Inovações e Comunicações	BR-T1284

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Martins, N. P., Fuchslueger, L., Fleischer, K., Andersen, K. M., Assis, R. L., Baccaro, F. B., Camargo, P. B., Cordeiro, A. L., Grandis, A., Hartley, I. P., Hofhansl, F., Lugli, L. F., Lapola, D. M., Menezes, J. G., Norby, R. J., Rammig, A., Rosa, J. S., Schaap, K. J., Takeshi, B., ... Quesada, C. A. (2021). Fine roots stimulate nutrient release during early stages of leaf litter decomposition in a Central Amazon rainforest. Plant and Soil, 469(1-2), 287-303. https://doi.org/10.1007/s11104-021-05148-9

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title = "Fine roots stimulate nutrient release during early stages of leaf litter decomposition in a Central Amazon rainforest",

abstract = "Purpose: Large parts of the Amazon rainforest grow on weathered soils depleted in phosphorus and rock-derived cations. We tested the hypothesis that in this ecosystem, fine roots stimulate decomposition and nutrient release from leaf litter biochemically by releasing enzymes, and by exuding labile carbon stimulating microbial decomposers. Methods: We monitored leaf litter decomposition in a Central Amazon tropical rainforest, where fine roots were either present or excluded, over 188 days and added labile carbon substrates (glucose and citric acid) in a fully factorial design. We tracked litter mass loss, remaining carbon, nitrogen, phosphorus and cation concentrations, extracellular enzyme activity and microbial carbon and nutrient concentrations. Results: Fine root presence did not affect litter mass loss but significantly increased the loss of phosphorus and cations from leaf litter. In the presence of fine roots, acid phosphatase activity was 43.2% higher, while neither microbial stoichiometry, nor extracellular enzyme activities targeting carbon- and nitrogen-containing compounds changed. Glucose additions increased phosphorus loss from litter when fine roots were present, and enhanced phosphatase activity in root exclusions. Citric acid additions reduced litter mass loss, microbial biomass nitrogen and phosphorus, regardless of fine root presence or exclusion. Conclusions: We conclude that plant roots release significant amounts of acid phosphatases into the litter layer and mobilize phosphorus without affecting litter mass loss. Our results further indicate that added labile carbon inputs (i.e. glucose) can stimulate acid phosphatase production by microbial decomposers, highlighting the potential importance of plant-microbial feedbacks in tropical forest ecosystems.",

author = "Martins, {Nathielly P.} and Lucia Fuchslueger and Katrin Fleischer and Andersen, {Kelly M.} and Assis, {Rafael L.} and Baccaro, {Fabricio B.} and Camargo, {Pl{\'i}nio B.} and Cordeiro, {Amanda L.} and Adriana Grandis and Hartley, {Iain P.} and Florian Hofhansl and Lugli, {Laynara F.} and Lapola, {David M.} and Menezes, {Juliane G.} and Norby, {Richard J.} and Anja Rammig and Rosa, {Jessica S.} and Schaap, {Karst J.} and Bruno Takeshi and Valverde-Barrantes, {Oscar J.} and Quesada, {Carlos A.}",

year = "2021",

month = dec,

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doi = "10.1007/s11104-021-05148-9",

language = "English",

volume = "469",

pages = "287--303",

journal = "Plant and Soil",

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Martins, NP, Fuchslueger, L, Fleischer, K, Andersen, KM, Assis, RL, Baccaro, FB, Camargo, PB, Cordeiro, AL, Grandis, A, Hartley, IP, Hofhansl, F, Lugli, LF, Lapola, DM, Menezes, JG, Norby, RJ, Rammig, A, Rosa, JS, Schaap, KJ, Takeshi, B, Valverde-Barrantes, OJ & Quesada, CA 2021, 'Fine roots stimulate nutrient release during early stages of leaf litter decomposition in a Central Amazon rainforest', Plant and Soil, vol. 469, no. 1-2, pp. 287-303. https://doi.org/10.1007/s11104-021-05148-9

TY - JOUR

T1 - Fine roots stimulate nutrient release during early stages of leaf litter decomposition in a Central Amazon rainforest

AU - Martins, Nathielly P.

AU - Fuchslueger, Lucia

AU - Fleischer, Katrin

AU - Andersen, Kelly M.

AU - Assis, Rafael L.

AU - Baccaro, Fabricio B.

AU - Camargo, Plínio B.

AU - Cordeiro, Amanda L.

AU - Grandis, Adriana

AU - Hartley, Iain P.

AU - Hofhansl, Florian

AU - Lugli, Laynara F.

AU - Lapola, David M.

AU - Menezes, Juliane G.

AU - Norby, Richard J.

AU - Rammig, Anja

AU - Rosa, Jessica S.

AU - Schaap, Karst J.

AU - Takeshi, Bruno

AU - Valverde-Barrantes, Oscar J.

AU - Quesada, Carlos A.

PY - 2021/12/1

Y1 - 2021/12/1

N2 - Purpose: Large parts of the Amazon rainforest grow on weathered soils depleted in phosphorus and rock-derived cations. We tested the hypothesis that in this ecosystem, fine roots stimulate decomposition and nutrient release from leaf litter biochemically by releasing enzymes, and by exuding labile carbon stimulating microbial decomposers. Methods: We monitored leaf litter decomposition in a Central Amazon tropical rainforest, where fine roots were either present or excluded, over 188 days and added labile carbon substrates (glucose and citric acid) in a fully factorial design. We tracked litter mass loss, remaining carbon, nitrogen, phosphorus and cation concentrations, extracellular enzyme activity and microbial carbon and nutrient concentrations. Results: Fine root presence did not affect litter mass loss but significantly increased the loss of phosphorus and cations from leaf litter. In the presence of fine roots, acid phosphatase activity was 43.2% higher, while neither microbial stoichiometry, nor extracellular enzyme activities targeting carbon- and nitrogen-containing compounds changed. Glucose additions increased phosphorus loss from litter when fine roots were present, and enhanced phosphatase activity in root exclusions. Citric acid additions reduced litter mass loss, microbial biomass nitrogen and phosphorus, regardless of fine root presence or exclusion. Conclusions: We conclude that plant roots release significant amounts of acid phosphatases into the litter layer and mobilize phosphorus without affecting litter mass loss. Our results further indicate that added labile carbon inputs (i.e. glucose) can stimulate acid phosphatase production by microbial decomposers, highlighting the potential importance of plant-microbial feedbacks in tropical forest ecosystems.

AB - Purpose: Large parts of the Amazon rainforest grow on weathered soils depleted in phosphorus and rock-derived cations. We tested the hypothesis that in this ecosystem, fine roots stimulate decomposition and nutrient release from leaf litter biochemically by releasing enzymes, and by exuding labile carbon stimulating microbial decomposers. Methods: We monitored leaf litter decomposition in a Central Amazon tropical rainforest, where fine roots were either present or excluded, over 188 days and added labile carbon substrates (glucose and citric acid) in a fully factorial design. We tracked litter mass loss, remaining carbon, nitrogen, phosphorus and cation concentrations, extracellular enzyme activity and microbial carbon and nutrient concentrations. Results: Fine root presence did not affect litter mass loss but significantly increased the loss of phosphorus and cations from leaf litter. In the presence of fine roots, acid phosphatase activity was 43.2% higher, while neither microbial stoichiometry, nor extracellular enzyme activities targeting carbon- and nitrogen-containing compounds changed. Glucose additions increased phosphorus loss from litter when fine roots were present, and enhanced phosphatase activity in root exclusions. Citric acid additions reduced litter mass loss, microbial biomass nitrogen and phosphorus, regardless of fine root presence or exclusion. Conclusions: We conclude that plant roots release significant amounts of acid phosphatases into the litter layer and mobilize phosphorus without affecting litter mass loss. Our results further indicate that added labile carbon inputs (i.e. glucose) can stimulate acid phosphatase production by microbial decomposers, highlighting the potential importance of plant-microbial feedbacks in tropical forest ecosystems.

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U2 - 10.1007/s11104-021-05148-9

DO - 10.1007/s11104-021-05148-9

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EP - 303

JO - Plant and Soil

JF - Plant and Soil

IS - 1-2

ER -

Fine roots stimulate nutrient release during early stages of leaf litter decomposition in a Central Amazon rainforest

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