Effects of Mineral Nitrogen Partitioning on Tree–Grass Coexistence in West African Savannas

Sarah Konaré, Simon Boudsocq, Jacques Gignoux, Jean Christophe Lata, Xavier Raynaud, Sébastien Barot

    Research output: Contribution to journalArticle

    Abstract

    Coexistence between trees and grasses in savannas is generally assumed to be due to a combination of partial niche separation for water acquisition and disturbances impacting the demography of trees and grasses. We propose a mechanism of coexistence solely based on the partitioning of the two dominant forms of mineral nitrogen (N), ammonium (NH 4 + ) and nitrate (NO 3 ). We built a mean-field model taking into account the capacity of grasses and trees to alter nitrification fluxes as well as their relative preferences for NH 4 + versus NO 3 . Two models were studied and parameterized for the Lamto savanna (Côte d’Ivoire): In the first model, the nitrification only depends on the quantity of available NH 4 + , and in the second model the nitrification rate is also controlled by tree and grass biomass. Consistent with coexistence theories, our results show that taking these two forms of mineral N into account can allow coexistence when trees and grasses have contrasting preferences for NH 4 + and NO 3 . Moreover, coexistence is more likely to occur for intermediate nitrification rates. Assuming that grasses are able to inhibit nitrification while trees can stimulate it, as observed in the Lamto savanna, the most likely case of coexistence would be when grasses prefer NH 4 + and trees NO 3 . We propose that mineral N partitioning is a stabilizing coexistence mechanism that occurs in interaction with already described mechanisms based on disturbances by fire and herbivores. This mechanism is likely relevant in many N-limited African savannas with vegetation composition similar to the one at the Lamto site, but should be thoroughly tested through empirical studies and new models taking into account spatiotemporal heterogeneity in nitrification rates.

    Original languageEnglish
    JournalEcosystems
    DOIs
    Publication statusPublished - 1 Jan 2019

    Keywords

    • ammonium
    • NH versus NO preference
    • nitrate
    • nitrification control
    • resource partitioning
    • savanna
    • tree–grass coexistence

    ASJC Scopus subject areas

    • Ecology, Evolution, Behavior and Systematics
    • Environmental Chemistry
    • Ecology

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