Your search keyword '"P. T. Mears"' showing total 4 results

1. Nitrogen response and stocking rate of Pennisetum clandestinum pastures: I. Pasture nitrogen requirement and concentration, distribution of dry matter and botanical composition

Author

P. T. Mears and L. R. Humphreys

Subjects

geography, geography.geographical_feature_category, Ammonium nitrate, Pennisetum clandestinum, chemistry.chemical_element, Biology, biology.organism_classification, Nitrogen, Pasture, Rhizome, chemistry.chemical_compound, chemistry, Agronomy, Shoot, Grazing, Genetics, Animal Science and Zoology, Dry matter, Agronomy and Crop Science

Abstract

SummaryAmmonium nitrate was applied to a kikuyu (Pennisetum clandestinum) dominant pasture at annual rates of 0, 134, 336 and 672 kg N/ha. Each nitrogen (N) rate treatment was continuously grazed at three stocking rates (SR) designed to apply similar grazing pressures at each N level and covering a range from 2·2 to 16·6 Angus weaner cattle/ha.The N status of these pastures was periodically assessed 8–10 weeks after seasonal N applications by temporarily excluding stock and measuring D.M. and N response to additional ammonium nitrate application. Pasture growth response to additional N was constant and independent of SR and of annual N rate over the range 0 to 336 kg N/ha, despite wide variation in pasture availability. N concentration of plant shoots was increased by high SR and rate of N uptake was not significantly affected by SR. Pasture growth rate was positively related to annual N rate.Herbage yield of kikuyu leaf, stem and litter on offer, was negatively related to SR but weight of underground organs was unaffected. Increasing SR increased the proportion of leaf and the rate of tillering. Pasture availability was positively and linearly related to N rate from 0 to 336 kg N/ha and maximal at 336 kg N/ha; the size of the litter fractions and underground organs was generally independent of N rate. N% in leaf and stem was reduced at low SR; N% of leaf, stem, litter, rhizome and root was positively related to N rate which was more influential than SR. The effect of SR on the size and relative distribution of the N in plant tops and litter fraction is discussed.Kikuyu dominance was positively related to N rate and independent of SR. White clover invaded at No and N131 levels especially at a high SR.

Published

1974

2. Nitrogen response and stocking rate of Pennisetum clandestinum pastures: II. Cattle growth

Author

P. T. Mears and L. R. Humphreys

Subjects

Stocking rate, geography, geography.geographical_feature_category, Ammonium nitrate, Pennisetum clandestinum, chemistry.chemical_element, Eye muscle, Biology, biology.organism_classification, Pasture, Nitrogen, chemistry.chemical_compound, Carcass weight, chemistry, Agronomy, Grazing, Genetics, Animal Science and Zoology, Agronomy and Crop Science

Abstract

SummaryIndividual live-weight gain (LWG) of Angus weaner cattle continuously grazing (Pennisetum clandestinum) pasture was negatively and linearly related to stocking rate (SR) and independent of ammonium nitrate (N) application rate at similar grazing pressures.Live-weight gain varied from 380 to 1056 kg/ha according to N rate in 1970–1 and from 637 to 1477 kg/ha in 1971–2. Calculated SR giving maximum LWG/ha was 3·4, 4·7, 7·6 and 9·8 animals/ha for the 0, 134, 336 and 672kg N/ha treatments respectively in 1970–1 and 6·1, 5·7, 9·1 and 10·6 animals/ha for the same treatments in 1971–2. Highest response to applied N (1·9 and 3·4 kg LWG/kg additional N in successive years) occurred between N131 and N336; response was greater at low and intermediate SR than at high SR. Carcass weight, quality score, depth of subcutaneous fat and area of eye muscle were negatively related to SR; SR's giving maximum output per unit area caused a reduction of ca.25% in production per head and adversely affected carcass quality at 18 months of age.LWG/head was independent of feed availability in spring and summer and was positively related to availability of green kikuyu up to 600 kg D.M./head in the autumn/winter period.

Published

1974

3. Dry-matter intake of Hereford and first-cross cows measured by controlled release of chromic oxide on three pasture systems

Author

P. D. Stephenson, P. T. Mears, P. Costigan, R. Barlow, K. J. Ellis, P. J. Williamson, and G. Rose

Subjects

geography, geography.geographical_feature_category, Pasture composition, Annual production, Chemistry, Brahman, Live weight, Pasture, Animal science, Agronomy, Genetics, Animal Science and Zoology, Dry matter, CHROMIC OXIDE, Agronomy and Crop Science

Abstract

SummaryFaecal output of 287 beef cows consisting of Hereford (H × H), Simmental × Hereford (S × H), Friesian × Hereford (F × H) and Brahman × Hereford (B × H) breeding was estimated using controlled release of chromic oxide (Cr2O3). All cows were from 6 to 10 years of age and had grazed on one of three pasture systems in the subtropics of New South Wales since they were 7–8 months of age. These pastures were designated as being of high, medium and low nutritive value. Faecal organic matter output (FOMO) was estimated in each of four periods (early lactation, mid lactation, late lactation, and non-lactating) during one annual production cycle.Herbage mass exceeded 2 t/ha on all pasture systems, but estimates of organic-matter digestibility, nitrogen content and pasture composition indicated large differences in pasture quality (high > medium > low). Live weight of cows averaged 604, 488 and 393 kg live weight on the high, medium and low pastures, respectively. There were significant differences in live weight between genotypes on the medium (B × H > F × H and H × H) and low (S × H ≡ F × H ≡ B × H > H × H) pastures but not on the high pasture).FOMO and dry-matter intake (DMI) differed significantly between genotypes among lactating cows on all pasture systems. Rankings on high pastures were reasonably consistent in all periods: S × H ≡ F × H ≥ B × H ≥ H × H, as were those on low pastures, B × H ≥ S × H ≡ F × H ≥ H × H. Differences on medium pastures were significant only during mid-lactation when B × H ≡ S × H ≡ F × H > H × H. Significant differences between genotypes were observed among non-lactating cows on high pastures only, where H × H ≡ S × H ≡ F × H > B × H. Lactating females had significantly higher FOMO and DMI than non-lactating females when compared across genotypes during early lactation on all pastures.

Published

1988

4. Response of Glycine wightii to molybdenized superphosphate on a krasnozem

Author

B. Barkus and P. T. Mears

Subjects

Irrigation, geography, geography.geographical_feature_category, Phosphorus, chemistry.chemical_element, Sowing, engineering.material, Pasture, Nutrient, chemistry, Agronomy, engineering, Dry matter, Fertilizer, General Agricultural and Biological Sciences, Lime

Abstract

The nutrient requirements of Glycine wightii CV. Clarence were investigated on a krasnozem soil near Lismore, New South Wales. Glycine responded to molybdenum, phosphorus, sulphur, and lime when grown in glasshouse pots. Applied in combination, these nutrients increased dry matter yield of plant tops by a factor 2.4 and nitrogen yield by 3.9. A positive interaction between molybdenum and phosphorus was recorded. Growth of plant tops, roots, and nitrogen yield continued to increase in response to molybdenum applied at 0, 1.6, and 3.2 oa an acre. The lime X molybdenum interaction was negative, but lime increased dry matter yield of glycine in the presence of adequate molybdenum. When glycine was sown with Setaria anceps CV. Kazungula in the field, maximum response of glycine was obtained in the following season, by applying molybdenurr, at 6.5 oz and superphosphate at 8 hundredweight an acre at sowing. The response to fertilizer by glycine was not reflected in total yield of the pasture, due to the low proportion (14 per cent) of the legume in the sward. Glycine contributed only 15 lb of nitrogen an acre to the total sward yield of 85 lb an acre over fourteen months. The effect of the nutrient constituents of molybdenixed superphosphate, the problem of grass dominance and other factors were discussed in relation to the low dry matter and nitrogen yields of glycine grown on krasnoxem soil.

Published

1970