Abstract
Root hairs form a substantial portion of the root surface area. Compared with their nutritional function, the physical function of root hairs has been poorly characterised. This study investigates the physical role of root hairs of Arabidopsis thaliana seedlings in interaction of the root with water and soil and in plant survival upon soil disruption. Five transgenic lines with different root hair lengths were used to assess the physical function of root hairs. Upon soil disruption by water falling from a height (mimicking rainfall), long-haired lines showed much higher anchorage rates than short-haired lines. The root-pulling test revealed that a greater amount of soil adhered to long-haired roots than to short-haired roots. When seedlings were pulled out and laid on the soil surface for 15 d, survival rates of long-haired seedlings were higher than those of short-haired seedlings. Moreover, the water holding capacity of roots was much greater among long-haired seedlings than short-haired seedlings. These results suggest that root hairs play a significant role in plant survival upon soil disruption which could be fatal for young seedlings growing on thin soil surface with a short primary root and root hairs as the only soil anchoring system.
Highlights
Evolution of roots enabled land plants to increase their size and enhance their survival by strengthening the photosynthetic capability
We hypothesised that root hairs are critical for the physical function of seedling roots and examined whether the contribution of root hairs to the root surface area is greater in seedlings than in adult plants
We estimated the ratio of root hair surface area to the whole root surface area in young seedlings and adult plants with developing lateral roots
Summary
Evolution of roots enabled land plants to increase their size and enhance their survival by strengthening the photosynthetic capability. We selected five transgenic Arabidopsis thaliana lines with different root hair lengths, and assessed whether root hairs contribute to soil anchorage, water holding capacity and survival rate, after the root was pulled out. Our results suggest that root hairs, especially long root hairs, are highly advantageous for the survival of seedlings upon the disruption of soil surface.
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