Add to ORKGThis automated harvest system is based on minimal modification of currently available commercial forage harvesters. Using 6.8 m plots separated by 0.75 m alleys, a single operator can harvest, finely chop, and collect wet plot weights of forage sorghum [Sorghum bicolor (L.) Moench] or pearl millet [Pennisetum glaucum (L.) R. Hr.] in \u3c1 min per plot. Harvested material is deposited in a pile in the center of each plot. Subsamples for moisture and quality analysis can easily and safely be obtained from the pile
The forage equipment industry is changing in response to farmers’ needs. These changes consist of in...
This NebGuide describes using no-till sorghum in ecofallow rotations, including hybrid selection, pl...
Methods and devices for automated adjustment of a digging implement during harvest of underground cr...
This automated harvest system is based on minimal modification of currently available commercial for...
ABSTRACT. A modular, computer–controlled sampling system was developed to directly sample chopped fo...
Many field experiments require the collection of forage yields in addition to grain yield (small gra...
The Oklahoma Cooperative Extension Service periodically issues revisions to its publications. The mo...
Reduction in grain loss of combine harvesters will increase the efficiency of harvesters and the net...
A prototype system for fully automated harvesting of burley tobacco has been developed and tested. T...
It has been estimated that the cost of black point damage for the Australian wheat industry are up t...
Advantages and disadvantages of various annual forages, results of dryland and irrigated forage tria...
Two types of big round balers and a small stackmaker were used to harvest grain sorghum stubble afte...
The planning and selection of equipment for harvest and handling of forage crops can greatly impact ...
Forage production was measured from three cuttings of 14 hay-type sorghum-sudan entries. Total annua...
Harvesting corn and sorghum forage as silage is popular because it adapts to complete mechanization ...
The forage equipment industry is changing in response to farmers’ needs. These changes consist of in...
This NebGuide describes using no-till sorghum in ecofallow rotations, including hybrid selection, pl...
Methods and devices for automated adjustment of a digging implement during harvest of underground cr...
This automated harvest system is based on minimal modification of currently available commercial for...
ABSTRACT. A modular, computer–controlled sampling system was developed to directly sample chopped fo...
Many field experiments require the collection of forage yields in addition to grain yield (small gra...
The Oklahoma Cooperative Extension Service periodically issues revisions to its publications. The mo...
Reduction in grain loss of combine harvesters will increase the efficiency of harvesters and the net...
A prototype system for fully automated harvesting of burley tobacco has been developed and tested. T...
It has been estimated that the cost of black point damage for the Australian wheat industry are up t...
Advantages and disadvantages of various annual forages, results of dryland and irrigated forage tria...
Two types of big round balers and a small stackmaker were used to harvest grain sorghum stubble afte...
The planning and selection of equipment for harvest and handling of forage crops can greatly impact ...
Forage production was measured from three cuttings of 14 hay-type sorghum-sudan entries. Total annua...
Harvesting corn and sorghum forage as silage is popular because it adapts to complete mechanization ...
The forage equipment industry is changing in response to farmers’ needs. These changes consist of in...
This NebGuide describes using no-till sorghum in ecofallow rotations, including hybrid selection, pl...
Methods and devices for automated adjustment of a digging implement during harvest of underground cr...