Author:
Ahmadi Nourollah,Audebert Alain,Bennett Malcolm J,Bishopp Anthony,de Oliveira Antonio Costa,Courtois Brigitte,Diedhiou Abdala,Diévart Anne,Gantet Pascal,Ghesquière Alain,Guiderdoni Emmanuel,Henry Amelia,Inukai Yoshiaki,Kochian Leon,Laplaze Laurent,Lucas Mikael,Luu Doan Trung,Manneh Baboucarr,Mo Xiaorong,Muthurajan Raveendran,Périn Christophe,Price Adam,Robin Sabariappan,Sentenac Hervé,Sine Bassirou,Uga Yusaku,Véry Anne Aliénor,Wissuwa Matthias,Wu Ping,Xu Jian
Abstract
Abstract
Rice production faces the challenge to be enhanced by 50% by year 2030 to meet the growth of the population in rice-eating countries. Whereas yield of cereal crops tend to reach plateaus and a yield is likely to be deeply affected by climate instability and resource scarcity in the coming decades, building rice cultivars harboring root systems that can maintain performance by capturing water and nutrient resources unevenly distributed is a major breeding target. Taking advantage of gathering a community of rice root biologists in a Global Rice Science Partnership workshop held in Montpellier, France, we present here the recent progresses accomplished in this area and focal points where an international network of laboratories should direct their efforts.
Publisher
Springer Science and Business Media LLC
Subject
Plant Science,Soil Science,Agronomy and Crop Science