Between Two Extremes: Tripsacum dactyloides Root Anatomical Responses to Drought and Waterlogging
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Premise
Plant roots are the critical interface between plants, soil, and microorganisms, and respond dynamically to changes in water availability. Although anatomical adaptations of roots to water stress (e.g., the formation of root cortical aerenchyma) are well documented, it remains unclear whether these responses manifest along the length of individual roots under both water deficiency and water over-abundance.
Methods
We investigated the anatomical responses of Tripsacum dactyloides L. to both drought and flood stress at high spatial resolution. Nodal roots were segmented into one-centimeter sections from the tip to the base, allowing us to pinpoint regions of maximal anatomical change.
Results
Both stressors increased the proportion of root cortical aerenchyma, but metaxylem responses differed: flooding increased vessel area whereas drought led to smaller vessels, with both showing a lower number of vessels. Drought also significantly increased root hair formation, but only within the first two centimeters. The most pronounced anatomical changes occurred 3-7 cm from the root tip, where cortical cell density declined as aerenchyma expanded.
Discussion
These findings highlight spatial variation in root anatomical responses to water stress and provide a framework integrating various other data types where sampling effort is limiting (e.g., microbiome, transcriptome, proteome).
