Root hairs matter at field scale for maize shoot growth and nutrient uptake, but root trait plasticity is primarily triggered by texture and drought

[1] Amos B(2006)Maize root biomass and net rhizodeposited carbon: an analysis of the literature Soil Sci Soc Am J 70 1489-1503

[2] Walters D(2007)Bimodal root diameter distributions in Serengeti grasses exhibit plasticity in response to defoliation and soil texture: implications for nitrogen uptake Funct Ecol 21 50-60

[3] Anderson T(2001)Root hairs confer a competitive advantage under low phosphorus availability Plant Soil 236 243-250

[4] Starmer W(2012)The physiology and proteomics of drought tolerance in maize: early stomatal closure as a cause of lower tolerance to short-term dehydration? PLoS One 7 e38017-447

[5] Thorne M(2006)Root responses to soil physical conditions; growth dynamics from field to cell J Exp Bot 57 437-1146

[6] Bates TR(2021)Root hairs: the villi of plants Biochem Soc Trans 49 1133-872

[7] Lynch JP(2021)Co-localised phosphorus mobilization processes in the rhizosphere of field-grown maize jointly contribute to plant nutrition Soil Biology and Biochemistry 165 108497-15

[8] Benešová M(2021)Soil textures rather than root hairs dominate water uptake and soil–plant hydraulics under drought Plant Physiol 187 858-781

[9] Hola D(2017)Liquid bridges at the root-soil interface Plant Soil 417 1-135

[10] Fischer L(2017)Root hairs enable high transpiration rates in drying soils New Phytol 216 771-6034

[1] Amos B(2006)Maize root biomass and net rhizodeposited carbon: an analysis of the literature Soil Sci Soc Am J 70 1489-1503

[2] Walters D(2007)Bimodal root diameter distributions in Serengeti grasses exhibit plasticity in response to defoliation and soil texture: implications for nitrogen uptake Funct Ecol 21 50-60

[3] Anderson T(2001)Root hairs confer a competitive advantage under low phosphorus availability Plant Soil 236 243-250

[4] Starmer W(2012)The physiology and proteomics of drought tolerance in maize: early stomatal closure as a cause of lower tolerance to short-term dehydration? PLoS One 7 e38017-447

[5] Thorne M(2006)Root responses to soil physical conditions; growth dynamics from field to cell J Exp Bot 57 437-1146

[6] Bates TR(2021)Root hairs: the villi of plants Biochem Soc Trans 49 1133-872

[7] Lynch JP(2021)Co-localised phosphorus mobilization processes in the rhizosphere of field-grown maize jointly contribute to plant nutrition Soil Biology and Biochemistry 165 108497-15

[8] Benešová M(2021)Soil textures rather than root hairs dominate water uptake and soil–plant hydraulics under drought Plant Physiol 187 858-781

[9] Hola D(2017)Liquid bridges at the root-soil interface Plant Soil 417 1-135

[10] Fischer L(2017)Root hairs enable high transpiration rates in drying soils New Phytol 216 771-6034