Molecular breeding to improve plant resistance to abiotic stresses
GJN Rao, JN Reddy, M Variar, A Mahender - Advances in plant breeding …, 2016 - Springer
Tolerance to abiotic stress is an important agronomic trait in crops and is controlled by many
genes/quantitative trait loci (QTLs). As abiotic stresses significantly affect grain yield, it is …
genes/quantitative trait loci (QTLs). As abiotic stresses significantly affect grain yield, it is …
Developmental genetics of maize vegetative shoot architecture
J Strable - Molecular Breeding, 2021 - Springer
More than 1.1 billion tonnes of maize grain were harvested across 197 million hectares in
2019 (FAOSTAT 2020). The vast global productivity of maize is largely driven by denser …
2019 (FAOSTAT 2020). The vast global productivity of maize is largely driven by denser …
[HTML][HTML] Dissecting grain yield pathways and their interactions with grain dry matter content by a two-step correlation approach with maize seedling transcriptome
J Fu, A Thiemann, TA Schrag, AE Melchinger… - BMC plant biology, 2010 - Springer
Background The importance of maize for human and animal nutrition, but also as a source
for bio-energy is rapidly increasing. Maize yield is a quantitative trait controlled by many …
for bio-energy is rapidly increasing. Maize yield is a quantitative trait controlled by many …
Genomic selection for enhanced stress tolerance in maize
HC Lohithaswa, SM Shreekanth, SK Banakara… - Next-Generation Plant …, 2022 - Springer
Maize is the fastest-growing cereal in the world and serves as the most significant
component of the global coarse grain trade. Interestingly, in addition to being a prime …
component of the global coarse grain trade. Interestingly, in addition to being a prime …
QTL and genomic prediction accuracy for grain yield and secondary traits in a maize population under heat and heat-drought stresses
N Neiff, L González Pérez… - Journal of Crop …, 2023 - Taylor & Francis
Heat and drought stresses negatively affect maize (Zea mays L.) productivity. We aimed to
identify the genetic basis of tolerance to heat stress (HS) and combined heat and drought …
identify the genetic basis of tolerance to heat stress (HS) and combined heat and drought …
Use of QTL in developing stress tolerance in agronomic crops
AF Gökçe, UK Chaudhry - Agronomic Crops: Volume 3: Stress Responses …, 2020 - Springer
Stress is any external factor that interferes with the normal functioning and growth of crops.
Abiotic stress has been extensively studied for causing devastating loss to agronomic crop …
Abiotic stress has been extensively studied for causing devastating loss to agronomic crop …
Integration of biotechnology, plant breeding and crop physiology. Dealing with complex interactions from a physiological perspective
FH Andrade, RG Sala, AC Pontaroli, A León, S Castro - Crop physiology, 2015 - Elsevier
Considering the vast knowledge gained in crop physiology, breeding and biotechnology, a
framework integrating these complementary disciplines could be important to achieve …
framework integrating these complementary disciplines could be important to achieve …
QTL analysis for plant architecture-related traits in maize under two different plant density conditions
Q Yi, X Hou, Y Liu, X Zhang, J Zhang, H Liu, Y Hu, G Yu… - Euphytica, 2019 - Springer
The erectophile plant architecture in maize is responsible for high plant density tolerance,
yet the genetic basis for this relationship remains elusive, especially for how canopy …
yet the genetic basis for this relationship remains elusive, especially for how canopy …
[图书][B] Phenotypic evaluation and genetic basis of anatomical and architectural root traits in the genus Zea
AL Burton - 2010 - search.proquest.com
Anatomical and architectural root traits influence physiological processes in plants, including
growth and resource acquisition. Traditionally, root traits have represented an underutilized …
growth and resource acquisition. Traditionally, root traits have represented an underutilized …