Abstract Phosphorus (P) is an essential nutrient for plant growth and reproduction and may constrain primary production when its availability in soils is low. In natural systems, P exists in multiple forms, depending on soil properties and environmental conditions. Plants use different root trait strategies to target these different P pools, for instance by exuding a suite of molecules that can help release PO 4 3− for plants to uptake, or by either investing in more root surface area or in mycorrhizal fungi partners to optimize nutrient absorption. Recently, exudates in particular have emerged as a rich field of study, owing to the high variability in chemical compositions and the resulting cost and efficiency dynamics that can be expressed as strategic pathways. Here, we use the recent study by Keen et al. (2026, https://doi.org/10.1029/2025jg009380 ) to highlight the importance of a holistic understanding of plant P mining dynamics and compound production costs relative to plant‐scale P return, while also accounting for the complex abiotic and biotic interactions influencing plant‐soil P cycling, and making recommendations for next steps on this research area.
Yaffar et al. (Mon,) studied this question.