Advances in Agronomy
Directeur de Collection : Sparks Donald L.
Advances in Agronomy continues to be recognized as a leading reference and a first-rate source for the latest research in agronomy. As always, the subjects covered are varied and exemplary of the myriad of subject matter dealt with by this long-running serial.
Six volumes are published yearly which ensures that authors? contributions are disseminated to the readership in a timely manner.
1. Advances in Host Plant and Rhizobium Genomics to Enhance Symbiotic Nitrogen Fixation in Grain Legumes Sangam Dwivedi, Kanwar Sahrawat, Hari Upadhyaya, Alessio Mengoni, Marco Galardini, Marco Bazzicalupo, Emanuele G. Biondi, Mariangela Hungria, Glaciela Kaschuk, Matthew Blair and Rodomiro Ortiz 2. Climate Change: Implications for Stakeholders in Genetic Resources and Seed Sector Rishi P. Singh, P.V. Vara Prasad, and K. Raja Reddy 3. Weedy (Red) Rice: An Emerging Constraint to Global Rice Production Lewis H. Ziska, David R. Gealy, Nilda Burgos, Ana L. Caicedo, Jonathan Gressel, Amy L. Lawton-Rauh, Luis A. Avila, Giovani Theisen, Jason Norsworthy, Aldo Ferrero, Francesco Vidotto, David E. Johnson, Felipe G. Ferreira, Enio Marchesan, Valmir Menezes, Marc A. Cohn, Steven Linscombe, Luciano Carmona, Rui Tang and Aldo Merotto 4. The Challenge of the Urine Patch for Managing Nitrogen in Grazed Pasture Systems Diana R. Selbie, Laura E. Buckthought and Mark A. Shepherd 5. Biologically Regulated Nutrient Supply Systems: Compost and Arbuscular Mycorrhizas – a Review Timothy R. Cavagnaro
- Timely and state-of-the-art reviews
- Distinguished, well recognized authors
- A venerable and iconic review series
- Timely publication of submitted reviews
Date de parution : 01-2015
Ouvrage de 348 p.
15x22.8 cm
Thème d’Advances in Agronomy :
Mots-clés :
Ammonia; and temperature)Rice planting and culture; Arbuscular mycorrhizas (AM)Biologically regulated nutrient supply systems; Biology and ecophysiology; Breeding strategies; Chemical and nonchemical weed control; Climate change; Competitiveness; Compost; Crop competitiveness; Cultivated rice (Oryza sativa L.)Direct-seeded rice (DSR)Distribution; Denitrification; DNA markers; Dry-seeded rice; Endophytes; Evolution (populations; weedy traits)Fecundity; Food security; Gene expression; Gene flow (outcrossing) between rice and weedy rice; Genetic diversity; Genetic resources; Genetics; Grain legumes; Herbicide-resistant rice cultivars; Herbicide-resistant weedy rice; Host-rhizobium interaction; Immobilization; Integrated weed management (IWM)Irrigation and water management; Intellectual property right; Leaching; Marker-assisted selection and breeding; Mitigation of gene flow (biotechnology; transgenic approaches)Modeling population dynamics; Mitigation; Nitrate; Nitrogen; Organic amendments; Pasture; Promiscuous germplasm; Public and private sector investments; Quantitative trait loci; Reduced tillage; Response to global climate change (CO2; Rhizobium; Ruminant; Seed dormancy; Seed industry; Seed quality; Seed shattering; Seed supply; Seed testing and certification; Seed treatment; Stress tolerance; Sustainability; Symbiotic nitrogen fixation; Transplanted rice; Urine patch; Water-seeded rice; Weedy (red) rice; (Oryza sativa L.)