Alexis Carreras1,2, Sophie Bernard1,2,3, Gaëlle Durambur1,2, Bruno Gügi1,2, Corinne Loutelier4, Barbara Pawlak1,2, Isabelle Boulogne1,2, Maite Vicré1,2, Azeddine Driouich1,2, Deborah Goffner5, Marie-Laure Follet-Gueye6,7,8. 1. Normandie Univ, UNIROUEN, Glyco-MEV EA4358, SFR NORVEGE FED 4277, 76821, Mont Saint-Aignan, France. 2. Fédération de Recherche « Normandie-Végétal » , FED 4277, 76821, Mont-Saint-Aignan, France. 3. Normandie Univ, UNIROUEN, PRIMACEN, IRIB, 76821, Mont-Saint-Aignan, France. 4. Normandie Univ, UNIROUEN, COBRA CNRS UMR 6014, 76821, Mont-Saint-Aignan, France. 5. CNRS UMI 3189 ESS, Pôle France, 13344, Marseille Cedex 15, France. 6. Normandie Univ, UNIROUEN, Glyco-MEV EA4358, SFR NORVEGE FED 4277, 76821, Mont Saint-Aignan, France. marie-laure.follet-gueye@univ-rouen.fr. 7. Fédération de Recherche « Normandie-Végétal » , FED 4277, 76821, Mont-Saint-Aignan, France. marie-laure.follet-gueye@univ-rouen.fr. 8. Normandie Univ, UNIROUEN, PRIMACEN, IRIB, 76821, Mont-Saint-Aignan, France. marie-laure.follet-gueye@univ-rouen.fr.
Abstract
MAIN CONCLUSION: Arabinogalactan protein content in both root extracellular trap and root exudates varies in three Sahelian woody plant species that are differentially tolerant to drought. At the root tip, mature root cap cells, mainly border cells (BCs)/border-like cells (BLCs) and their associated mucilage, form a web-like structure known as the "Root Extracellular Trap" (RET). Although the RET along with the entire suite of root exudates are known to influence rhizosphere function, their features in woody species is poorly documented. Here, RET and root exudates were analyzed from three Sahelian woody species with contrasted sensitivity to drought stress (Balanites aegyptiaca, Acacia raddiana and Tamarindus indica) and that have been selected for reforestation along the African Great Green Wall in northern Senegal. Optical and transmission electron microscopy show that Balanites aegyptiaca, the most drought-tolerant species, produces only BC, whereas Acacia raddiana and Tamarindus indica release both BCs and BLCs. Biochemical analyses reveal that RET and root exudates of Balanites aegyptiaca and Acacia raddiana contain significantly more abundant arabinogalactan proteins (AGPs) compared to Tamarindus indica, the most drought-sensitive species. Root exudates of the three woody species also differentially impact the plant soil beneficial bacteria Azospirillum brasilense growth. These results highlight the importance of root secretions for woody species survival under dry conditions.
MAIN CONCLUSION: Arabinogalactan protein content in both root extracellular trap and root exudates varies in three Sahelian woody plant species that are differentially tolerant to drought. At the root tip, mature root cap cells, mainly border cells (BCs)/border-like cells (BLCs) and their associated mucilage, form a web-like structure known as the "Root Extracellular Trap" (RET). Although the RET along with the entire suite of root exudates are known to influence rhizosphere function, their features in woody species is poorly documented. Here, RET and root exudates were analyzed from three Sahelian woody species with contrasted sensitivity to drought stress (Balanites aegyptiaca, Acacia raddiana and Tamarindus indica) and that have been selected for reforestation along the African Great Green Wall in northern Senegal. Optical and transmission electron microscopy show that Balanites aegyptiaca, the most drought-tolerant species, produces only BC, whereas Acacia raddiana and Tamarindus indica release both BCs and BLCs. Biochemical analyses reveal that RET and root exudates of Balanites aegyptiaca and Acacia raddiana contain significantly more abundant arabinogalactan proteins (AGPs) compared to Tamarindus indica, the most drought-sensitive species. Root exudates of the three woody species also differentially impact the plant soil beneficial bacteria Azospirillum brasilense growth. These results highlight the importance of root secretions for woody species survival under dry conditions.
Authors: Bonnie S Watson; Mohamed F Bedair; Ewa Urbanczyk-Wochniak; David V Huhman; Dong Sik Yang; Stacy N Allen; Wensheng Li; Yuhong Tang; Lloyd W Sumner Journal: Plant Physiol Date: 2015-02-09 Impact factor: 8.340