Tradeoffs among root functional traits for phosphorus acquisition in 13 soybean genotypes contrasting in mycorrhizal colonization

Yizeng Fang; Luwen Lu; Kang Chen; Xiurong Wang

doi:10.1093/aob/mcae060

Tradeoffs among root functional traits for phosphorus acquisition in 13 soybean genotypes contrasting in mycorrhizal colonization

Ann Bot. 2024 Apr 20:mcae060. doi: 10.1093/aob/mcae060. Online ahead of print.

Authors

Yizeng Fang¹, Luwen Lu¹, Kang Chen¹, Xiurong Wang¹

Affiliation

¹ State Key Laboratory for Conservation and Utilization of Subtropical Agro-bioresources, Root Biology Center, South China Agricultural University, Guangzhou 510642, China.

PMID: 38642143
DOI: 10.1093/aob/mcae060

Abstract

Background and aims: Plants have adapted to acquire phosphorus (P) primarily through advantageous root morphologies, responsive physiological pathways, and associations with mycorrhizal fungi. Yet, to date, little information exists on how variation in arbuscular mycorrhizal (AM) colonization is coordinated with root morphological and physiological traits to enhance P acquisition.

Methods: Thirteen root functional traits associated with P acquisition were characterized at full bloom stage in pot cultures under low soil P availability conditions for 13 soybean genotypes contrasting in AM colonization.

Key results: Significant variation in root functional traits was observed in response to low P stress among the 13 tested soybean genotypes contrasting in AM colonization. Genotypes with low AM colonization exhibited greater root proliferation but with less advantageous root physiological characteristics for P acquisition. In contrast, genotypes with high AM colonization exhibited less root growth but higher phosphatase activities and carboxylate content in the rhizosheath. Root dry weights, and contents of carbon and P were positively correlated with root morphological traits of different root orders and whole root systems, and were negatively correlated with AM colonization of fine roots and whole root systems, as well as, rhizosheath phosphatase activities and carboxylate contents. These results taken in combination with significant positive correlation between plant P content and root morphological traits indicate that root morphological traits play a primary role in soybean P acquisition.

Conclusions: The results suggest that efficient P acquisition involves tradeoffs among carbon allocation to root proliferation, mycorrhizal symbiosis, or P-mobilizing exudation. Complementarity and complexity in the selection of P acquisition strategies was notable among soybean genotypes contrasting in AM colonization, which is closely related to plant C budgeting.

Keywords: arbuscular mycorrhizal fungi; genotypic variation; phosphorus acquisition; root morphological traits; root physiological traits; soybean.

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