Biological nitrogen fixation activity by co-occurring moss species is affected by their ability to absorb nitrogen from canopy throughfall

doi:10.1007/s00442-025-05751-y

. 2025 Jul 2;207(7):119.

doi: 10.1007/s00442-025-05751-y.

Biological nitrogen fixation activity by co-occurring moss species is affected by their ability to absorb nitrogen from canopy throughfall

Charlotte Blasi¹, Daniel Houle², Gaëlle Vacherand³, Jean-Philippe Bellenger³

Affiliations

¹ Centre Sève, Département de Chimie, Université de Sherbrooke, Sherbrooke, QC, J1K 2R1, Canada. charlotte.blasi@usherbrooke.ca.
² Directorat des Sciences et Technologie de l'eau, Environnement et Changement climatique Canada, 105 rue McGill, Montréal, H27 2E7, Canada.
³ Centre Sève, Département de Chimie, Université de Sherbrooke, Sherbrooke, QC, J1K 2R1, Canada.

PMID: 40601097
DOI: 10.1007/s00442-025-05751-y

Biological nitrogen fixation activity by co-occurring moss species is affected by their ability to absorb nitrogen from canopy throughfall

Charlotte Blasi et al. Oecologia. 2025.

. 2025 Jul 2;207(7):119.

doi: 10.1007/s00442-025-05751-y.

Authors

Charlotte Blasi¹, Daniel Houle², Gaëlle Vacherand³, Jean-Philippe Bellenger³

Affiliations

¹ Centre Sève, Département de Chimie, Université de Sherbrooke, Sherbrooke, QC, J1K 2R1, Canada. charlotte.blasi@usherbrooke.ca.
² Directorat des Sciences et Technologie de l'eau, Environnement et Changement climatique Canada, 105 rue McGill, Montréal, H27 2E7, Canada.
³ Centre Sève, Département de Chimie, Université de Sherbrooke, Sherbrooke, QC, J1K 2R1, Canada.

PMID: 40601097
DOI: 10.1007/s00442-025-05751-y

Abstract

Biological nitrogen fixation in feathermosses provides an important source of exogenous nitrogen to boreal forest ecosystems. Yet there is a limited understanding of how canopy condition and throughfall influence N fixation rates. To decipher the effect of climatic variables (i.e., temperature, humidity, and light) and nitrogen deposition chemistry (i.e., inorganic and organic N) on moss BNF, we monitored climatic variables, biological N₂-fixation, cyanobacteria biomass, and some moss traits of two co-occurring moss species in black spruce forests in Eastern Canada (Pleurozium schreberi and Ptilium crista-castrensis) over two growing seasons in undisturbed mature forests and forest gaps (windfalls). We further investigated the ability of both species to retrieve nitrogen from deposition using ¹⁵N tracers in the field and the lab. Both species achieved comparable BNF in forest gaps. In the mature forest, BNF decreased in both species compared to the forest gap but was significantly higher in P. crista-castrensis (about 10 fold) than in P. schreberi. In both species, the decrease in BNF activity between forest gaps and mature forests was likely driven by the slightly less favorable climatic conditions for BNF (e.g., temperature and light). However, BNF was further reduced in P. schreberi due to better nitrogen sorption from the throughfall leading to reduced cyanobacteria colonization and cyanobacteria-specific BNF activity. These results show that co-occurring moss species are affected in a contrasted manner by changes in the composition of nitrogen deposition.

Keywords: Black spruce forest; Climatic variables; Co-occurring moss species; Moss-associated nitrogen fixation; Nitrogen deposition; Nitrogen fixation drivers.

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Conflict of interest statement

Declarations. Conflict of interest: The authors declare that they have no conflict of interest. Consent for publication: All authors provided consent for publication.

References

1. Ackermann K, Zackrisson O, Rousk J, Jones DL, DeLuca TH (2012) N₂ fixation in feather mosses is a sensitive indicator of n deposition in boreal forests. Ecosystems 15(6):986–998. https://doi.org/10.1007/s10021-012-9562-y - DOI
1. Alvarenga DO (2022) Unraveling host–microbe interactions and ecosystem functions in moss—bacteria symbioses. J Exp Bot 73(13):4473–4486
1. Arróniz-Crespo M, Bougoure J, Murphy DV, Cutler NA, Souza-Egipsy V, Chaput DL, Jones DL, Ostle N, Wade SC, Clode PL, DeLuca TH (2022) Revealing the transfer pathways of cyanobacterial-fixed N into the boreal forest through the feather-moss microbiome. Front Plant Sci 13:1036258. https://doi.org/10.3389/fpls.1036258 - DOI
1. Bay G, Nahar N, Oubre M, Whitehouse MJ, Wardle DA, Zackrisson O, Nilsson MC, Rasmussen U (2013) Boreal feather mosses secrete chemical signals to gain nitrogen. New Phytol 200(1):54–60. https://doi.org/10.1111/nph.12403 - DOI
1. Berg A, Danielsson Å, Svensson BH (2013) Transfer of fixed-N from N2-fixing cyanobacteria associated with the moss Sphagnum riparium results in enhanced growth of the moss. Plant Soil 362(1–2):271–278. https://doi.org/10.1007/s11104-012-1278-4 - DOI

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[1] Ackermann K, Zackrisson O, Rousk J, Jones DL, DeLuca TH (2012) N₂ fixation in feather mosses is a sensitive indicator of n deposition in boreal forests. Ecosystems 15(6):986–998. https://doi.org/10.1007/s10021-012-9562-y - DOI

[2] Ackermann K, Zackrisson O, Rousk J, Jones DL, DeLuca TH (2012) N₂ fixation in feather mosses is a sensitive indicator of n deposition in boreal forests. Ecosystems 15(6):986–998. https://doi.org/10.1007/s10021-012-9562-y - DOI

[3] Alvarenga DO (2022) Unraveling host–microbe interactions and ecosystem functions in moss—bacteria symbioses. J Exp Bot 73(13):4473–4486

[4] Alvarenga DO (2022) Unraveling host–microbe interactions and ecosystem functions in moss—bacteria symbioses. J Exp Bot 73(13):4473–4486

[5] Arróniz-Crespo M, Bougoure J, Murphy DV, Cutler NA, Souza-Egipsy V, Chaput DL, Jones DL, Ostle N, Wade SC, Clode PL, DeLuca TH (2022) Revealing the transfer pathways of cyanobacterial-fixed N into the boreal forest through the feather-moss microbiome. Front Plant Sci 13:1036258. https://doi.org/10.3389/fpls.1036258 - DOI

[6] Arróniz-Crespo M, Bougoure J, Murphy DV, Cutler NA, Souza-Egipsy V, Chaput DL, Jones DL, Ostle N, Wade SC, Clode PL, DeLuca TH (2022) Revealing the transfer pathways of cyanobacterial-fixed N into the boreal forest through the feather-moss microbiome. Front Plant Sci 13:1036258. https://doi.org/10.3389/fpls.1036258 - DOI

[7] Bay G, Nahar N, Oubre M, Whitehouse MJ, Wardle DA, Zackrisson O, Nilsson MC, Rasmussen U (2013) Boreal feather mosses secrete chemical signals to gain nitrogen. New Phytol 200(1):54–60. https://doi.org/10.1111/nph.12403 - DOI

[8] Bay G, Nahar N, Oubre M, Whitehouse MJ, Wardle DA, Zackrisson O, Nilsson MC, Rasmussen U (2013) Boreal feather mosses secrete chemical signals to gain nitrogen. New Phytol 200(1):54–60. https://doi.org/10.1111/nph.12403 - DOI

[9] Berg A, Danielsson Å, Svensson BH (2013) Transfer of fixed-N from N2-fixing cyanobacteria associated with the moss Sphagnum riparium results in enhanced growth of the moss. Plant Soil 362(1–2):271–278. https://doi.org/10.1007/s11104-012-1278-4 - DOI

[10] Berg A, Danielsson Å, Svensson BH (2013) Transfer of fixed-N from N2-fixing cyanobacteria associated with the moss Sphagnum riparium results in enhanced growth of the moss. Plant Soil 362(1–2):271–278. https://doi.org/10.1007/s11104-012-1278-4 - DOI

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Biological nitrogen fixation activity by co-occurring moss species is affected by their ability to absorb nitrogen from canopy throughfall

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Biological nitrogen fixation activity by co-occurring moss species is affected by their ability to absorb nitrogen from canopy throughfall

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