The agronomic evaluation of forage legumes in East Africa

Russell-Smith, Tony

January 1990

No description available.

630

Tropical forage legumes

The genetic assessment of inbred lines and their hybrids in Lolium perenne L

Xu, Xiangming

January 1989

No description available.

630

Perennial ryegrass; Forage

Enhancement of nutritional quality of straw-based diets in Pakistan by urea treatment or supplementation with protein or energy

Khan, Muhammad Aslam

January 2001

No description available.

631.8

Forage; Ruminants

An analysis of the potential of forage triticale

Brignall, D.

January 1986

No description available.

630

Forage triticale development

Interspecific somatic hybridization in Medicago

Mendis, Merennga Hector

January 1990

No description available.

580

Forage crop genetics

Studies of factors affecting the nutritional value of feedingstuffs in complete diets for ruminants

Catton, Richard

January 1984

No description available.

590

Forage digestion in livestock

Productivity of grasses and legumes in eastern Kansas

Sowers, Paul Robert

January 2010

Typescript, etc. / Digitized by Kansas Correctional Industries

Forage plantsKansas

PasturesKansas

The effect of planting date on the growth potential of different forage sorghum cultivars

Bodibe, Lesego Minah

19 September 2014

Thesis (M.Sc. (Pasture Science)) -- University of Limpopo, 2014 / Forage sorghum is widely grown in South Africa as annual summer forage to supplement pasture production for sheep, beef and dairy cattle. A number of sorghum cultivars are available commercially, and periodically some cultivars are added while others are withdrawn from the market. The potential yield figures and the nutritive value of these forage sorghum cultivars are generally not known. The management practices that improve forage sorghum production and quality include the time of planting and time of harvesting. The genetic makeup of different forage sorghum cultivars also accounted for a portion of the production and quality. A field experiment was conducted at Dewageningsdrift Experimental Farm (DWD), Moloto, Gauteng and Nooitgedacht Agricultural Development Center (NGD), Ermelo, Mpumalanga to study the influence of planting date on the growth potential of different forage sorghum cultivars. Three planting dates were used: mid-December 2006, mid-January 2007 and mid-February 2007. Thirteen different cultivars were incorporated in the trial to evaluate influence of the breeding history. The cultivars were defoliated at three different stages: cut repeatedly at six weekly intervals (Dt 1), cut repeatedly when it reached a grazing stage (± 800 mm high) (Dt 2) and once at the silage stage (soft dough) (Dt 3). At DWD the average total dry matter (TDM) productions, for the six week cutting treatment (Dt 1), were 10760 kg/ha, 5195 kg/ha and 1944 kg/ha for December, January and February planting date respectively. For the same treatment, at NGT, the average TDM productions were 6396 kg/ha and 1737 kg/ha for December and January respectively. The February planting resulted in the poor germination and seedling emergency. The seedlings did not survive due to low temperatures. The minimum of 13 ºC and 11.8 ºC as well as the maximum of 24.1 ºC and 23.0 ºC in February and March were below the required germination temperature (15 ºC). The highest producers that is available in the market were Jumbo, Sentop, Piper, Kow Kandy, and Sugargraze. Defoliated repeatedly at grazing stage (Dt 2), at DWD, resulted in average TDM productions of 8541 kg/ha, 4950 kg/ha and 2683 kg/ha for December, January and February, respectively. At NGT the average TDM productions were 7769 kg/ha and 3010 kg/ha for December and January respectively. The highest producers were Jumbo, Kow Kandy, Piper, Sentop and Sugargraze. The average TDM productions at the silage stage (Dt 3), at DWD, were 17923 kg/ha, 15015 kg/ha and 2529 kg/ha for December, January and February respectively. At NGT the average TDM production iii was 11856 kg/ha and 5350 kg/ha for December and January, The highest producers were Jumbo, Sugargraze, Kow Kandy, Sentop and Kow Kandy.December planting proved to be the best planting date for optimum DM production, compared to later plantings in January and February. Keywords Forage sorghum, cultivars, planting dates, defoliation stages, grazing stage, silage

Forage sorghum

Cultivers

Planting dates

Defoliation stages

Grazing stage

Silage

Forage sorghum

Forage crops

Forage grasses

Les fluides de forage étude des performances et considérations environnementales /

Khodja, Mohamed Canselier, Jean-Paul. Bergaya, Faïza.

January 2008

Reproduction de : Thèse de doctorat : Génie chimique et environnement : Toulouse, INPT : 2008. / Titre provenant de l'écran-titre. Bibliogr. 801 réf.

Boues de forage Surfactants

Trade-offs of predation and foraging explain sexual segregation in African buffalo

Hay, CT, Cross, PC, Funston, PJ

January 2008

1.Many studies have investigated why males and females segregate spatially in sexually dimorphic species. These studies have focused primarily on temperate zone ungulates in areas lacking intact predator communities, and few have directly assessed predation rates in different social environments. 2.Data on the movement, social affiliation, mortality and foraging of radio-collared African buffalo (Syncerus caffer) were collected from 2001–06 in the Kruger National Park, South Africa. 3.The vast majority of mortality events were due to lion (Panthera leo) predation, and the mortality hazard associated with being an adult male buffalo in a male-only ‘bachelor’ group was almost four times higher than for adult females in mixed herds. The mortality rates of adult males and females within mixed herds were not statistically different. Mortality sites of male and female buffalo were in areas of low visibility similar to those used by bachelor groups, while mixed herds tended to use more open habitats. 4.Males in bachelor groups ate similar or higher quality food (as indexed by percentage faecal nitrogen), and moved almost a third less distance per day compared with mixed herds. As a result, males in bachelor groups gained more body condition than did males in breeding herds. 5.Recent comparative analyses suggest the activity-budget hypothesis as a common underlying cause of social segregation. However, our intensive study, in an area with an intact predator community showed that male and female buffalo segregated by habitat and supported the predation-risk hypothesis. Male African buffalo appear to trade increased predation risk for additional energy gains in bachelor groups, which presumably leads to increased reproductive success.

Behaviour

Forage quality,