Add to ORKGYield variability of spring pea (Pisum sativum L.) in farmers' fi elds is mainly due to soil compaction at sowing and abiotic stresses during the reproductive period. Winter peas fl ower earlier, and thus should be less sensitive to abiotic stress at the end of the cycle, but because of their sensitivity to frost they must be sown late in autumn when soils are very wet. Pea breeders are working on new winter cultivars that are more resistant to frost and highly sensitive to photoperiod and that could be sown earlier in autumn under better soil conditions. Our aim was to measure crop growth, development, and seed yield of diff erent types of pea cultivars using factorial experiments that evaluated the eff ect of soil structure, sowing period...
In the 1998 - 2007 years we observed the effect of two different cropping systems (conventional and ...
We compared 29 pea (Pisum sativum L.) accessions including advanced breeding lines and commercial va...
Deficiency of vegetative protein in agricultural production can be overcome by grain legumes cultiva...
Pea is considered rather well adapted to wide temperature ranges, with seedlings able to survive eve...
The effects of three seeding rates (25, 50, and 100 seeds m(-2)) on several morphological traits, an...
For farmers, pea crop is characterized by a large yield variability between years, between areas, an...
Pea (Pisum sativum L.) is a particularly sensitive crop regarding abiotic stress throughout its cycl...
Field pea (Pisum arvense L.), also known as Austrian winter pea, is increasingly being planted in Cr...
During the two-year study on the influence of presowing fertilization on growth and development of ...
Recently developed methods of growth and yield analysis were applied to the results of a field exper...
International audienceThe evaluation of varieties of cultivated species is based on the implementati...
Field peas have been under evaluation in the northern cropping region of Australia for the past five...
Autumn-winter sowing of vining peas (Pisum sativum) is not practised in Canterbury, New Zealand, alt...
Results are reported on a pea (Pisum sativum L.) experiment carried out at the DSIR, Lincoln, Canter...
This work investigated the relationship between agronomic treatment of the mother plant and the qual...
In the 1998 - 2007 years we observed the effect of two different cropping systems (conventional and ...
We compared 29 pea (Pisum sativum L.) accessions including advanced breeding lines and commercial va...
Deficiency of vegetative protein in agricultural production can be overcome by grain legumes cultiva...
Pea is considered rather well adapted to wide temperature ranges, with seedlings able to survive eve...
The effects of three seeding rates (25, 50, and 100 seeds m(-2)) on several morphological traits, an...
For farmers, pea crop is characterized by a large yield variability between years, between areas, an...
Pea (Pisum sativum L.) is a particularly sensitive crop regarding abiotic stress throughout its cycl...
Field pea (Pisum arvense L.), also known as Austrian winter pea, is increasingly being planted in Cr...
During the two-year study on the influence of presowing fertilization on growth and development of ...
Recently developed methods of growth and yield analysis were applied to the results of a field exper...
International audienceThe evaluation of varieties of cultivated species is based on the implementati...
Field peas have been under evaluation in the northern cropping region of Australia for the past five...
Autumn-winter sowing of vining peas (Pisum sativum) is not practised in Canterbury, New Zealand, alt...
Results are reported on a pea (Pisum sativum L.) experiment carried out at the DSIR, Lincoln, Canter...
This work investigated the relationship between agronomic treatment of the mother plant and the qual...
In the 1998 - 2007 years we observed the effect of two different cropping systems (conventional and ...
We compared 29 pea (Pisum sativum L.) accessions including advanced breeding lines and commercial va...
Deficiency of vegetative protein in agricultural production can be overcome by grain legumes cultiva...