Biological Sciences
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Browsing Biological Sciences by Subject "Acacia."
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Item Nitrogen fixation and cycling in Natal valley bushveld Acacia species.(1995) Furniss, David Gordon.; Yeaton, Richard I.; Granger, James Edmund.Five species, Acacia karroo, A. robusta, A. nilotica, A. sieberana and A. tortilis, were inoculated with Rhizobium and grown in potted sand in a temperature controlled greenhouse. After six months, results showed a higher percentage plant nitrogen for all five species when inoculated plants were compared to uninoculated controls. Inoculated treatments of A. karroo and A. sieberana had the greatest growth in shoot length and biomass. Acacia robusta showed the highest nitrogenase activity when nodules were tested using acetylene reduction methods. Inoculants of A. tortilis showed the poorest growth for all parameters measured. A. karroo and A. nilotica were studied at a field site at Ashburton, 15km east of Pietermaritzburg. Acacia karroo and A. nilotica had similar mean percentage leaf nitrogen, but A. karroo had a significantly higher mean percentage stern nitrogen than A. nilotica. Rainfall, canopy throughfall and stemflow from A. karroo and A. nilotica were collected in late spring and examined for inorganic nitrogen content. Acacia nilotica yielded the highest nitrate levels in both throughfall and stemflow samples. Acacia karroo produced lower nitrate concentrations in samples of both throughfall and stemflow, than was found in rainfall. Both A. nilotica and A. karroo exhibited higher concentrations of ammonium in samples of throughfall and stemflow as compared to levels. Soil analyses yielded highest levels of organic nitrogen at the surface (0 - 5 cm) but this decreased significantly at 20 cm deep. Surface organic nitrogen was highest under A. karroo canopies and lowest in open grassland. At 20 cm, there was little difference in organic nitrogen content between soils sampled from open patches and those under canopies of A. nilotica or A. karroo. Nitrate showed little variation with species, but highest levels were found in the top five centimetres and levels were higher under grasslands than under canopies. Ammonium showed no significant differences between different depths but was higher in open grassland sites than under canopies. No pattern could be found to relate tree size to soil organic nitrogen content.Item Seed and seedling dynamics of certain acacia species as affected by herbivory, grass competition, fire, and grazing system.(2001) Kanz, Wolfgang Adrian.; O'Connor, Timothy Gordon.The influence of herbivory, grass competition and grazing system on emergence, growth and survival of Acacia seedlings in burnt and unburnt areas was investigated in their first growing season, from September 1997 to May 1998. The study was aimed at determining possible reasons for the increase in woody plant density in semi-arid savannas, specifically the effect of excluding small-mouthed herbivores from domestic and livestock systems, and switching from continuous grazing to rotational grazing systems. The effect of fire intensity and maximum fire temperature on seed viability, germination and mortality, specifically with regard to back versus head fires and seed size , were investigated. Variability among species in the number of seedlings emerging generally resembled differences in viability. Emergence of Acacia karroo and Acacia tortilis was poorer than that of Acacia nilotica under grass competition. Emergence was lower in burnt and open areas, the latter depending on Acacia species. Herbivory did not affect seedling emergence, in both domestic and wildlife systems. Seedling survival and growth was adversely affected by small-mouthed herbivores in both domestic and livestock systems, whilst large-mouthed herbivores exerted no direct effects on woody seedlings, except to a small degree by trampling. Seedlings showed better growth and survival under low grass competition, which also resulted in greater leaf-to-height ratios , indicating that grass interference with irradiance affects woody seedlings. This effect appeared to be greater for cattle and rotational grazing, and for burning, in domestic and wildlife systems respectively. Woody seedling establishment was also better in burnt areas. Whilst seedling growth was better under rotational than continuous grazing, survival was not significantly different. Grass competition influenced seedling establishment to a greater extent than herbivory, whilst burning made a greater impact than grass competition. Seed mortality in response to maximum fire temperature was inversely related to seed size, and trends in seed germination and mortality, although very variable, appeared to be influenced by threshold fire intensities and maximum temperatures. Back fires had hotter maximum temperatures and fire intensities at ground level than head fires, which result in greater seed mortality following fire. Based on the current study it is likely that the removal of grass competition, burning, and a change from continuous to rotational grazing systems, and small-mouthed to large-mouthed herbivores, will result in an increase in woody seedling establishment.