Growing heat-tolerant maize can reduce yield losses due to climate change by up to 36% (rainfed) and 93% (irrigated). Heat Tolerant Maize for Asia (HTMA, 2013-17) helped smallholder farmers in climate-vulnerable ecologies to secure their food security and livelihoods, ensured technologies' equal access to women farmers and incorporated gender-preferred nutrition traits. 50+ CIMMYT maize hybrids have been licensed to public and private partners (2015-2020) for release. By 2020, farmers had adopted 16 varieties on over 20,000 ha
The stress of climate change on wheat production means farmers urgently need more heat and drought t...
Climate change, including increased variability, challenges smallholder agriculture. It also affects...
Global mean temperature is increasing at a rapid pace due to the rapid emission of greenhouse gases ...
The Heat Tolerant Maize for Asia (HTMA) project develops and disseminates heat-tolerant hybrids in 5...
The Heat Tolerant Maize for Asia (HTMA) project helps smallholder farmers in 3 South Asian countries...
Climate change-induced heat stress combines two challenges: high day- and nighttime temperatures, an...
Article Purchased; Published online: 14 September 2016Maize is grown by millions of smallholder farm...
Rapid-cycle breeding to steadily deliver improved varieties to farmers is essential to adapt maize s...
High-yielding wheat varieties with tolerance to heat stress, in combination with systemic innovation...
Abiotic stresses (drought, heat) are one of the major impediments to enhancing the maize productivit...
Most parts of the Asian tropics are hotspots of climate change effects and associated weather variab...
The Drought Tolerant Maize for Africa (DTMA) and Stress Tolerant Maize for Africa (STMA) projects de...
Food and nutritional security will be worsened by climate change-induced high temperatures, drought...
The study identified nine promising heat stress tolerant maize inbred lines with desirable secondary...
Climate change and population growth pose great challenges to the food security of the millions of p...
The stress of climate change on wheat production means farmers urgently need more heat and drought t...
Climate change, including increased variability, challenges smallholder agriculture. It also affects...
Global mean temperature is increasing at a rapid pace due to the rapid emission of greenhouse gases ...
The Heat Tolerant Maize for Asia (HTMA) project develops and disseminates heat-tolerant hybrids in 5...
The Heat Tolerant Maize for Asia (HTMA) project helps smallholder farmers in 3 South Asian countries...
Climate change-induced heat stress combines two challenges: high day- and nighttime temperatures, an...
Article Purchased; Published online: 14 September 2016Maize is grown by millions of smallholder farm...
Rapid-cycle breeding to steadily deliver improved varieties to farmers is essential to adapt maize s...
High-yielding wheat varieties with tolerance to heat stress, in combination with systemic innovation...
Abiotic stresses (drought, heat) are one of the major impediments to enhancing the maize productivit...
Most parts of the Asian tropics are hotspots of climate change effects and associated weather variab...
The Drought Tolerant Maize for Africa (DTMA) and Stress Tolerant Maize for Africa (STMA) projects de...
Food and nutritional security will be worsened by climate change-induced high temperatures, drought...
The study identified nine promising heat stress tolerant maize inbred lines with desirable secondary...
Climate change and population growth pose great challenges to the food security of the millions of p...
The stress of climate change on wheat production means farmers urgently need more heat and drought t...
Climate change, including increased variability, challenges smallholder agriculture. It also affects...
Global mean temperature is increasing at a rapid pace due to the rapid emission of greenhouse gases ...