Abstract
Plant root hairs increase the root surface to enhance the uptake of sparingly soluble and immobile nutrients, such as the essential nutrient phosphorus, from the soil. Here, root hair traits and the response to scarce local phosphorus concentration were studied in 166 accessions of Arabidopsis thaliana using split plates. Root hair density and length were correlated, but highly variable among accessions. Surprisingly, the well-known increase in root hair density under low phosphorus was mostly restricted to genotypes that had less and shorter root hairs under P sufficient conditions. By contrast, several accessions with dense and long root hairs even had lower hair density or shorter hairs in local scarce phosphorus. Furthermore, accessions with whole-genome duplications developed more dense but phosphorus-insensitive root hairs. The impact of genome duplication on root hair density was confirmed by comparing tetraploid accessions with their diploid ancestors. Genome-wide association mapping identified candidate genes potentially involved in root hair responses tp scarce local phosphate. Knock-out mutants in identified candidate genes (CYR1, At1g32360 and RLP48) were isolated and differences in root hair traits in the mutants were confirmed. The large diversity in root hair traits among accessions and the diverse response when local phosphorus is scarce is a rich resource for further functional analyses.
Highlights
Phosphorus (P) is an essential macronutrient, which is involved in several crucial processes in the plant
Establishment of a root hair screening system for the acclimation to low local phosphorus To ensure similar conditions for germination and early seedling development of a large array of Arabidopsis accessions, seeds were germinated on the top compartment of split agar plates containing all nutrients, including phosphorus
The upper part of the roots was in contact with medium containing phosphorus and the lower part used for root hair scoring was in direct contact with the medium lacking P
Summary
Phosphorus (P) is an essential macronutrient, which is involved in several crucial processes in the plant. GWAS of Root Hair Response to Low P water and nutrient uptake [2]. Their importance for phosphorus supply under low availability has been proven using Arabidopsis thaliana [3] and barley mutants [4] that lack root hairs. A large number of root hair and non-root hair-specific genes and proteins are known and many genes involved in their development have been identified. A large gene and protein network exclusively expressed in either root hair or non-root hair cells, of which many are related to the specific growth pattern of the hairs, has been identified [5,6]. In addition to genetic factors, hormonal signals and environmental factors, such as nutrient (especially phosphorus) deficiencies, control root hair development [7,8]. Auxin and ethylene [9,10,11] and as was discovered more recently, strigolactones [12], appear to have the largest impact on root hair length and density
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