Plant breeding has contributed significantly to the development of effective grassland production systems. New technologies offer enhanced precision in breeding and access to wider genetic variation. The requirement for more sustainable production systems will require genetic improvements in complex traits where the use of new technology will be vital
Plant breeding is human-directed evolution. Plant breeders manipulate the genetic resources of a spe...
Grassland covers 26% of the world's total land area. It produces feed for livestock; maintains soil ...
The livestock agriculture of temperate grasslands is a major provider of meat and milk to the world....
Key points 1. Plant breeding has contributed significantly to the development of effective grassland...
Twenty years ago, in 1993, we published one of the first two alfalfa genetic linkage maps. At the ti...
The majority of tropical and subtropical forage grass genera and/or species have not yet been collec...
Grass is a complex crop and its value for agriculture must be assessed in terms of the quantity and ...
The amount of resources and information provided by forage crop genomic programs has dramatically in...
This paper will focus on a historical perspective on cool season forage production, plant breeding m...
Grasslands cover a significant proportion of the agricultural land within the UK and across the EU, ...
Our goal as scientists must be to provide sufficient food for the world’s population, while returnin...
Grassland covers 26% of the world's total land area. It produces feed for livestock; maintains soil ...
Advances have occurred at a remarkable rate and are interwoven below under the headings of Agronomy,...
Key points A range of molecular breeding technologies have been developed for forage plant species...
Grassland covers 26% of the world's total land area. It produces feed for livestock; maintains soil ...
Plant breeding is human-directed evolution. Plant breeders manipulate the genetic resources of a spe...
Grassland covers 26% of the world's total land area. It produces feed for livestock; maintains soil ...
The livestock agriculture of temperate grasslands is a major provider of meat and milk to the world....
Key points 1. Plant breeding has contributed significantly to the development of effective grassland...
Twenty years ago, in 1993, we published one of the first two alfalfa genetic linkage maps. At the ti...
The majority of tropical and subtropical forage grass genera and/or species have not yet been collec...
Grass is a complex crop and its value for agriculture must be assessed in terms of the quantity and ...
The amount of resources and information provided by forage crop genomic programs has dramatically in...
This paper will focus on a historical perspective on cool season forage production, plant breeding m...
Grasslands cover a significant proportion of the agricultural land within the UK and across the EU, ...
Our goal as scientists must be to provide sufficient food for the world’s population, while returnin...
Grassland covers 26% of the world's total land area. It produces feed for livestock; maintains soil ...
Advances have occurred at a remarkable rate and are interwoven below under the headings of Agronomy,...
Key points A range of molecular breeding technologies have been developed for forage plant species...
Grassland covers 26% of the world's total land area. It produces feed for livestock; maintains soil ...
Plant breeding is human-directed evolution. Plant breeders manipulate the genetic resources of a spe...
Grassland covers 26% of the world's total land area. It produces feed for livestock; maintains soil ...
The livestock agriculture of temperate grasslands is a major provider of meat and milk to the world....