Root hairs facilitate rice root penetration into compacted layers.

Compacted soil layers adversely affect rooting depth and access to deeper nutrient and water resources, thereby impacting climate resilience of crop production and global food security. Root hair plays well-known roles in facilitating water and nutrient acquisition. Here, we report that root hair also contributes to root penetration into compacted layers. We demonstrate that longer root hair, induced by elevated auxin response during a root compaction response, improves the ability of rice roots to penetrate harder layers. This compaction-induced auxin response in the root hair zone is dependent on the root apex-expressed auxin synthesis gene OsYUCCA8 (OsYUC8), which is induced by compaction stress. This auxin source for root hair elongation relies on the auxin influx carrier AUXIN RESISTANT 1 (OsAUX1), mobilizing this signal from the root apex to the root hair zone. Mutants disrupting OsYUC8 and OsAUX1 genes exhibit shorter root hairs and weaker penetration ability into harder layers compared with wild type (WT). Root-hair-specific mutants phenocopy these auxin-signaling mutants, as they also exhibit an attenuated root penetration ability. We conclude that compaction stress upregulates OsYUC8-mediated auxin biosynthesis in the root apex, which is subsequently mobilized to the root hair zone by OsAUX1, where auxin promotes root hair elongation, improving anchorage of root tips to their surrounding soil environment and aiding their penetration ability into harder layers.

Growth and development of soybean roots according to planting management systems and irrigation in lowland areas / Crescimento e desenvolvimento de raízes de soja em função do manejo de implantação e da irrigação em área de várzea

ABSTRACT: The presence of a compacted soil layer near the ground surface in paddy fields may limit the growth and development of soybean roots. The objective of this study was to evaluate different planting management systems and irrigation on growth and development of soybean root systems in lowland area. The experiment was carried out in 2013/14 and 2014/15 crop seasons in randomized complete block design with factorial treatment (3x2), with four replications. The treatments consisted of different planting management systems: sowing with double disc (A1); sowing with shank (A2) and deep tillage + sowing with double disc (A3), and irrigation: irrigated (D1) and non irrigated (D2). Planting management systems and irrigation influenced the growth of soybean roots. When double disc was used, roots have lower growth and increase in diameter. Use of shanks and deep tillage provide increased growth and development of soybean roots and greater depth distribution. An additional 55mm of irrigation during the V4 soybean development stage provides increased surface area and root volume in when the soil moisture reaches values below 60% of field capacity.

RESUMO: A presença de uma camada compactada próxima à superfície do solo em áreas de várzeas pode limitar o crescimento e desenvolvimento das raízes de soja. O objetivo do trabalho foi avaliar diferentes manejos de implantação e irrigação no crescimento e desenvolvimento do sistema radicular de soja em área de várzea. O experimento foi realizado nas safras 2013/14 e 2014/15 no delineamento experimental de blocos ao acaso em esquema fatorial (3x2), em faixa, com quatro repetições. Os tratamentos constaram de diferentes manejos de implantação da cultura: semeadura com disco duplo desencontrado (A1); semeadura com haste sulcadora (A2) e escarificação do solo + semeadura com disco duplo desencontrado (A3), e de irrigação: com irrigação (D1) e sem irrigação (D2). Os manejos de implantação e a irrigação influenciaram no crescimento das raízes de soja. No disco duplo, as raízes apresentam menor crescimento e aumento do diâmetro. Os manejos com haste sulcadora e escarificação do solo proporcionam maior crescimento e desenvolvimento de raízes de soja e maior distribuição em profundidade. Uma irrigação suplementar de 55mm no estádio V4 de desenvolvimento das plantas de soja proporciona aumento da área superficial e do volume de raízes em soja, quando a umidade do solo atinge valores abaixo de 60% da capacidade de campo.