Herbage production modelling and assessment in the arid rangelands of Central Australia

Hobbs, Trevor J., n/a

January 1994

The management and sustainable use of Central Australian rangelands for livestock production and conservation requires improved knowledge of the temporal and spatial distribution of primary production in this region. To provide such information, this thesis investigated methods that could rapidly and efficiently estimate regional herbage biomass production in these arid landscapes. Two different approaches were examined, using (1) ground-based or (2) satellite-based data sources. Soil moisture and herbage growth data were collected over several growth seasons and five landscape types in Central Australia, and the data used to develop a model of soil moisture balance and herbage production for the region. The model has few parameters and only requires inputs of rainfall and potential evaporation to predict daily soil moisture and plant growth. Moisture loss in the 0-500 mm soil profile was modelled using a negative exponential function that depends on available soil moisture and is driven by potential evaporation. The growth of herbage, whilst soil moisture is above wilting point, is a linear function of actual evapotranspiration, with the decay of plant material represented by a logistic curve through time. Soil moisture, herbage biomass and species composition assessments made at hectare and square kilometre scales at four locations within Central Australia were examined to determine if a small sample area could be used to accurately describe the soil and plant conditions at a landscape scale. Moisture levels of the 0-200 and 0-500 mm soil profiles from nine samples were analysed for the beginning and conclusion of a growth season, whilst herbage biomass and species composition from 50 samples were compared at the end of the growth season. Results suggest that mean soil moisture levels determined in a 1 ha area are comparable with mean values in the surrounding 1 km2 area. Herbage biomass and species richness for a square kilometre can be assessed at a hectare site for some landscape types, but a larger sampling area (> 1 ha) is recommended for most rangeland assessments. Satellite data (NOAA-11) were examined for their potential application in assessing primary productivity in Central Australia. Several image correction techniques were tested to minimise the adverse effects of atmospheric contamination and illumination. Two measures of atmospheric moisture: (1) radiosonde data and (2) temperature differences between bands 4 and 5 of the NOAA satellite (split-window) were used to explain variations in NOAA-11 normalised difference vegetation index (NDVI) on inert desert sites. The splitwindow approach provided the best single factor relationship (r2=0.63) and, when combined with scattering angle (illumination) effects, up to 81% of the variation in NDVI data could be explained. Field measurements of herbage biomass were correlated with four growth indices derived from NOAA-11 NDVI data. The influence of preflight and sensor degradation calibrations of Bands 1 and 2, and atmospheric correction techniques were also tested. Correlations between temporal sums of NDVI and herbage biomass data were relatively poor (r2<0.42) and unsuitable for herbage assessment in Central Australia. However, correlations between atmospherically corrected and background-adjusted maximum NDVI data and observed herbage biomass were strong (r2=0.91), that will allow primary production in the arid rangelands of Central Australia to be assessed rapidly and efficiently using remotely-sensed information.

herbage production modelling

arid rangelands

Central Australia

Genotypic evaluation of Trifolium ambiguum

Stewart, Alan V.

January 1979

A number of morphological, floral, rhizome, root and herbage characteristics were studied in order to describe genetic variation and environmental responses in T. ambiguum. From each of six lines, 30 genotypes were clonally progagated into five diverse edaphic and altitudinal sites and grown for one season. Comparisons of growth and form were also made between T. ambiguum, T. repens cv. 'Grasslands Huia' and Lotus pedunculatus cv. 'Grasslands Maku'. The polyploid lines were found to have larger leaves than the diploids while all the lines of T. ambiguum had larger leaves than did white clover. Tetraploid lines had longer petioles and were taller and more erect than the diploids or hexaploids. Floral initiation was found to become later as ploidy level increased but the tetraploid lines exhibited a very large variation in flowering date. The cultivar Treeline was found to produce the most herbage under all conditions although not significantly more than cultivar Prairie or C.P.I. 57353. However, as nodulation was not studied it was not possible to determine whether variety differences were due to root nodulating ability or some other genetically determined parameter. None of the T. ambiguum varieties produced as much herbage as cv. Huia or cv. Maku at any site. However, all the T. ambiguum lines performed relatively better under harsher conditions. Because a large proportion of T. ambiguum was below ground the best T. ambiguum line, cultivar Treeiine, produced equivalent total plant dry weight to cv. Huia and cv. Maku at 1200 m. a.s.l., the high altitude site. Cultivar Prairie was found to have the highest proportion of rhizomes to total plant mass bu because cv. Treeline had higher total plant dry weight both cultivars produced equivalent mean rhizome dry weight. The number of rhizomes, number of daughter plants and rhizome dry weight were all highly correlated and these three characteristics showed similar trends among varieties. Rhizome length was found to increase with ploidy level, as did rhizome internode length. However, the number of nodes was found to be higher in the diploids than in the polyploids. Cultivar Treeline was found to have a high proportion of branching nodes on its rhizomes while C.P.I. 57353 and cv. Summit had the least. Rhizome production was restricted in the Wakanui silt loam soil of high bulk density. However, herbage growth and rhizome branching was increased, probably because of the higher fertility. It was shown using factor analysis on genotypic correlations, that rhizome characteristics and herbage yields were relatively independently inherited. However, morphological characters tended to be related to herbage yields. The polyploid varieties were found to be more genetically variable than the diploids . Broad sense heritabilities were calculated for all parameters measured, and in general, morphological characteristics had higher values than agronomic characteristics. As the genetic variation within each line was higher than the variation among lines, it is apparent that selection within lines should result in the largest gains. Therefore, comparison of the mean performance of the presently highly variable lines is relatively uninformative. By sacrificing some genetic diversity, large gains could be made in performance. It is suggested that cv. Prairie be used as the basis for selecting a highly rhizomatous cultivar while cv. Treeline could be used in the selection of a cultivar with higher herbage production suitable for high country conditions. In a second trial, an established stand of cv. Treeline produced up to 13250 kg per ha for one season under good growing conditions. The management required to produce this amount of herbage was to irrigate and cut to ground level every two months. The growth rate was considerably depressed when cut monthly. It was also shown that root and rhizome yield reached 12600 kg per ha, indicating a massive reserve of assimilates, particularly useful for surviving periods of stress. Seed yields were found to be adequate, reaching levels equivalent to 500-700 kg per ha. These results were discussed in relation to earlier observations on T. ambiguum by workers in Russia, Australia, U.S.A. and New Zealand. Suggestions were made for further genetic and agronomic testing.

Trifolium ambiguum

genetic variation

morphology

seed production

flowering

rhizome

herbage production

Nutritional Quality and Herbage Production of Intermediate Wheatgrass (Agropyron intermedium [Host] Beauv.) When Infested with Black Grass Bugs (Labops hesperius Uhler)

Gray, Alan M.

01 May 1975

Two intermediate wheatgrass seedings with different levels of grass bug infestation were evaluated for herbage production, seedhead production, percent dry matter, crude protein, and cell contents. Study sites were located at different elevations on mountain summer ranges in northern (Site I) and central (Site II) Utah. Study plots at Site I and Site II were infested with 113 and 210 bugs per sweep, respectively. Herbage production appeared to be reduced in early spring on the site with the higher infestation; however, no effect on season-long herbage production could be detected on either site. Seedhead production on infested plots was reduced 45 percent at Site I and 56 percent at Site II. No important effect on dry matter content of infested plants was detected even though the leaves appeared to be dry and in a condition of moisture stress. Crude protein of infested plants was significantly higher (one to two percent) than control plants on the site with the higher infestation. The percentage of cell contents of plants on the more highly infested plot was eight percent less than the percentage of cell contents of control plants in the early spring. This reduction coincided with the period of peak damage. Later in the season this difference diminished as plant growth continued after the bug population completed its life cycle.

wheatgrass

black grass bugs

nutritional quality

herbage production

infestation

Ecology and Evolutionary Biology

Environmental Sciences

Nutrition

Plant Sciences

Genotypic evaluation of Trifolium ambiguum

Stewart, Alan V.

January 1979

A number of morphological, floral, rhizome, root and herbage characteristics were studied in order to describe genetic variation and environmental responses in T. ambiguum. From each of six lines, 30 genotypes were clonally progagated into five diverse edaphic and altitudinal sites and grown for one season. Comparisons of growth and form were also made between T. ambiguum, T. repens cv. 'Grasslands Huia' and Lotus pedunculatus cv. 'Grasslands Maku'. The polyploid lines were found to have larger leaves than the diploids while all the lines of T. ambiguum had larger leaves than did white clover. Tetraploid lines had longer petioles and were taller and more erect than the diploids or hexaploids. Floral initiation was found to become later as ploidy level increased but the tetraploid lines exhibited a very large variation in flowering date. The cultivar Treeline was found to produce the most herbage under all conditions although not significantly more than cultivar Prairie or C.P.I. 57353. However, as nodulation was not studied it was not possible to determine whether variety differences were due to root nodulating ability or some other genetically determined parameter. None of the T. ambiguum varieties produced as much herbage as cv. Huia or cv. Maku at any site. However, all the T. ambiguum lines performed relatively better under harsher conditions. Because a large proportion of T. ambiguum was below ground the best T. ambiguum line, cultivar Treeiine, produced equivalent total plant dry weight to cv. Huia and cv. Maku at 1200 m. a.s.l., the high altitude site. Cultivar Prairie was found to have the highest proportion of rhizomes to total plant mass bu because cv. Treeline had higher total plant dry weight both cultivars produced equivalent mean rhizome dry weight. The number of rhizomes, number of daughter plants and rhizome dry weight were all highly correlated and these three characteristics showed similar trends among varieties. Rhizome length was found to increase with ploidy level, as did rhizome internode length. However, the number of nodes was found to be higher in the diploids than in the polyploids. Cultivar Treeline was found to have a high proportion of branching nodes on its rhizomes while C.P.I. 57353 and cv. Summit had the least. Rhizome production was restricted in the Wakanui silt loam soil of high bulk density. However, herbage growth and rhizome branching was increased, probably because of the higher fertility. It was shown using factor analysis on genotypic correlations, that rhizome characteristics and herbage yields were relatively independently inherited. However, morphological characters tended to be related to herbage yields. The polyploid varieties were found to be more genetically variable than the diploids . Broad sense heritabilities were calculated for all parameters measured, and in general, morphological characteristics had higher values than agronomic characteristics. As the genetic variation within each line was higher than the variation among lines, it is apparent that selection within lines should result in the largest gains. Therefore, comparison of the mean performance of the presently highly variable lines is relatively uninformative. By sacrificing some genetic diversity, large gains could be made in performance. It is suggested that cv. Prairie be used as the basis for selecting a highly rhizomatous cultivar while cv. Treeline could be used in the selection of a cultivar with higher herbage production suitable for high country conditions. In a second trial, an established stand of cv. Treeline produced up to 13250 kg ha⁻¹ for one season under good growing conditions. The management required to produce this amount of herbage was to irrigate and cut to ground level every two months. The growth rate was considerably depressed when cut monthly. It was also shown that root and rhizome yield reached 12600 kg ha⁻¹, indicating a massive reserve of assimilates, particularly useful for surviving periods of stress. Seed yields were found to be adequate, reaching levels equivalent to 500-700 kg ha⁻¹. These results were discussed in relation to earlier observations on T. ambiguum by workers in Russia, Australia, U.S.A. and New Zealand. Suggestions were made for further genetic and agronomic testing.

Trifolium ambiguum

genetic variation

morphology

seed production

flowering

rhizome

herbage production

Relação planta-animal em diferentes intensidades de pastejo com ovinos em azevém anual (Lolium multiflorum Lam.) / Plant-animal relation at different grazing intensity with sheep in italian ryegrass (Lolium multiflorum Lam.)

Roman, Juliano

22 February 2006

This work aimed to evaluate the utilization of different grazing intensity on the productive and structural characteristics of pasture and on the ingestive behaviour and performance of sheep in continuous grazing. The treatment were different herbage masses (HM) in Italian ryegrass (Lolium multiflorum Lam.) pasture: LHM: 1000-1200 kg/ha of dry matter (DM); IHM: 1400-1600 kg/ha DM; HHM: 1800-2000 kg/ha DM. The experimental design was the randomly complete, with three treatments and two area replicates. The data were submitted at the regression analysis in function of HM observed in the experimental units: 1136.8, 1190.9, 1359.2, 1375, 1556 e 1739.1 kg/ha DM. The values of leaf lamina mass, pseudostem mass, forage allowance, leaf lamina allowance, sward height, pseudostem height, leaf lamina depth and average daily gain increased linearly with increase of HM (P<0.10). Quadratic effect (P<0.10) in herbage production, herbage losses and herbage disappearance were observed. The stocking rate (kg/ha of live weight and hoggets/ha) and bite rate decreased linearly with increase of HM (P<0.10). No HM effects (P>0.10) on the tiller population density, herbage daily accumulation rate, percentage of pasture utilization, herbage intake, grazing time, ruminating time, idle time, number of daily bite, bite mass, body condition score gain, live weight gain per area and conversion efficiency of forage in live weight were observed. Herbage mass varying among 1136.8 a 1739.1 hg/ha DM in Italian ryegrass pasture affect the herbage production and herbage losses, without influence in the percentage of pasture utilization, weight gain per area and conversion efficiency of forage in animal product. The main factor determining individual performance of animals is the leaf lamina layer depth / O objetivo deste trabalho foi avaliar a utilização de diferentes intensidades de pastejo sobre as características produtivas e estruturais da pastagem e sobre o comportamento ingestivo e desempenho de ovinos em pastejo contínuo. Os tratamentos foram diferentes massas de forragem (MF) em pastagem de azevém anual (Lolium multiflorum Lam.): MFB: 1000-1200 kg/ha de matéria seca (MS); MFI: 1400-1600 kg/ha MS; MFA: 1800-2000 kg/ha MS. O delineamento experimental foi inteiramente casualizado com três tratamentos e duas repetições de área. Os dados foram submetidos à análise de regressão em função das MF observadas nas unidades experimentais: 1136,8, 1190,9, 1359,2, 1375, 1556 e 1739,1 kg/ha MS. Os valores de massa de lâminas foliares e de pseudocolmo, oferta de forragem e de lâminas foliares, altura de dossel e de pseudocolmo, profundidade de lâminas foliares e ganho médio diário aumentaram linearmente com aumento da MF (P<0,10). Houve efeito quadrático (P<0,10) para produção, perdas e desaparecimento de forragem. A carga animal (kg/ha PV), taxa de lotação (borregas/ha) e taxa de bocadas diminuíram linearmente com o aumento da MF (P<0,10). Não houve efeito das MF avaliadas (P>0,10) na densidade populacional de perfilhos, taxa de acumulação diária de forragem, porcentagem de utilização da pastagem, consumo de forragem, tempos de pastejo, ruminação e ócio, número diário de bocadas, massa de bocado, ganho de condição corporal, ganho de peso vivo por área e eficiência de conversão de forragem em peso vivo. Massas de forragem variando de 1136,8 a 1739,1 kg/ha MS em pastagem de azevém afetam a produção e perdas de forragem, sem influenciar a porcentagem de utilização da pastagem, o ganho de peso vivo por área e a eficiência de transformação da forragem em produto animal. O principal fator determinante do desempenho individual dos animais é a profundidade da camada de lâminas foliares

Comportamento ingestivo

Massa de forragem

Produção de forragem

Perdas de forragem

Produção animal

Profundidade de lâminas foliares

Ingestive behaviour

Herbage mass

Herbage production

Herbage losses

Animal production

Leaf lamina depth

CNPQ::CIENCIAS AGRARIAS::ZOOTECNIA