Micro-scale interactions between Arabidopsis root hairs and soil particles influence soil erosion.
Sarah De BaetsThomas D G DenbighKevin M SmythBethany M EldridgeLaura WeldonBenjamin HigginsAntoni MatyjaszkiewiczJeroen MeersmansEmily R LarsonIsaac V ChenchiahTanniemola B LiverpoolTimothy A QuineClaire S GriersonPublished in: Communications biology (2020)
Soil is essential for sustaining life on land. Plant roots play a crucial role in stabilising soil and minimising erosion, although these mechanisms are still not completely understood. Consequently, identifying and breeding for plant traits to enhance erosion resistance is challenging. Root hair mutants in Arabidopsis thaliana were studied using three different quantitative methods to isolate their effect on root-soil cohesion. We present compelling evidence that micro-scale interactions of root hairs with surrounding soil increase soil cohesion and reduce erosion. Arabidopsis seedlings with root hairs were more difficult to detach from soil, compost and sterile gel media than those with hairless roots, and it was 10-times harder to erode soil from roots with than without hairs. We also developed a model that can consistently predict the impact root hairs make to soil erosion resistance. Our study thus provides new insight into the mechanisms by which roots maintain soil stability.