Extração assistida por micro-ondas no preparo de um bioerbicida a partir das folhas da Canavalia ensiformis: aplicação em plantas invasoras na cultura de soja convencional e as consequências no solo / Microwave assisted extraction in the preparation of a bioherbicide from Canavalia ensiformis leaves: application on weeds in conventional soybean cultivation and the effects on the soil

Darlan Ferreira da Silva

11 July 2016

<br /> Vários compostos químicos são usados para o controle de pragas e doenças na agricultura com a finalidade de aumentar a produtividade. É de conhecimento científico que tais compostos afetam negativamente a saúde humana e animal por meio da contaminação dos alimentos e do meio ambiente. Assim, o uso de substâncias obtidas da própria natureza para o combate de pragas e plantas invasoras é uma alternativa para o controle e, consequente, prevenção da contaminação ambiental. Neste trabalho foram avaliados os extratos aquosos das folhas da leguminosa feijão-de-porco (Canavalia ensiformis) como bioerbicida pós-emergente aplicado no controle de plantas invasoras em cultura de soja e seus efeitos no solo. Salienta-se que não há informações sobre os efeitos desses bioerbicida no solo. Os compostos fenólicos, em especial os ácidos fenólicos, têm ação inibitória no crescimento de plantas invasoras. O processo de extração dos compostos fenólicos foi feito em um sistema de digestão por micro-ondas, com aproximadamente 2 g de material vegetal seco, seguida de injeção cromatográfica. Para otimização do procedimento de extração via micro-ondas os parâmetros avaliados foram: tempo de irradiação, temperatura e rampa aplicada. Foram realizadas determinações cromatográficas para identificação e quantificação dos compostos fenólicos: rutina, ácido clorogênico, ácido ferúlico e naringenina presentes nas folhas do feijão-de-porco por HPLC-UV, mediante metodologia de extração por micro-ondas. Todo o trabalho foi desenvolvido de acordo com os requisitos de gestão da qualidade referentes às normas NBR ISO/IEC 17025 e BPL. / <br /> Several chemical compounds are used for pest and disease control in agriculture in order to increase productivity. It is well know that such pesticides adversely affect human and animal health through contamination by food and environment. Thus, the use of substances obtained from nature itself to combat pests and weeds is an alternative for the control of those and, consequently, prevent environmental contamination. This work were assessed aqueous extracts of jack bean leaves (Canavalia ensiformis) as a post-emergent bioherbicide applied in weed control in soybean crops and its effects on the soil. It is noteworthy there is not information on the effects of these bioherbicides on the soil. Phenolics compounds, notably, phenolics acids, have inhibitory action on the growth of weeds. The process of extraction of phenolic compounds was carried out in a digestion system by microwave, using approximately 2 g dry plant material, followed by chromatographic injection. For optimization of the extraction procedure by microwave-assisted extraction the factors evaluated were irradiation time, temperature and ramp time. Chromatographic determinations were performed for identification and quantification of the phenolic compounds: rutin, chlorogenic acid, ferulic acid and naringenin present in the Canavalia ensiformis leaves by HPLC-UV, through microwave extraction methodology. All the study was developed in compliance with the quality management concepts covered in NBR ISO/IEC 17025 and GLP.

Canavalia ensiformis

Emilia sonchifolia

Sida spinosa

bioerbicidas

compostos fenólicos

extração assistida por micro-ondas

HPLC-UV

plantas invasoras

soja

solo

Canavalia ensiformis

Emilia sonchifolia

Sida spinosa

bioherbicides

HPLC-UV

microwave-assisted extraction

phenolic compounds

soil

soybean

weeds

Insects associated with the lupin (Lupinus angustifolius) cultivars Fest and Uniharvest

Harris, B. M.

January 1980

The insect fauna of two Lupinus angustifolius cultivars (Fest and Uniharvest) was surveyed between October, 1978 and March, 1979. The main sampling methods were sweepnetting, use of the D-Vac, and pod removal. Glasshouse experiments were carried out with species showing pest potential (based on the survey). These species were Acyrthosiphon pisum (Harris), Nysius huttoni White, and Sidnia kinbergi (Stalenberg). While A. pisum and S. kinbergi had their pest potential confirmed, N. huttoni did not. Although the aphids Acyrthosiphon kondoi Shinji, Macrosiphum euphorbiae (Thompson) and Myzus persicae (Sulzer) were not studied in the laboratory, field data indicated their pest potential. Insects to show lesser pest potential were Calocoris norvegicus (Gmelin), Hylemyia deceptiva Malloch, and Hylemyia platura (Meigen). Important potential predators or parasites were Austromicromus tasmaniae (Walker), Coccinella undecimpunctata L., Tropiconabis capsiformis (Germar), some Araneae species and single unidentified species of Braconidae and Eulophidae. The cultivar Uniharvest was the preferred host presumably because it does not possess the toxic alkaloids of Fest. However, crop loss through insect damage appeared unimportant compared to the 10% loss of Uniharvest caused by the aphid-borne bean yellow mosaic virus.

insects

lupins

Lupinus angustifolius

lupin insect fauna

Value of perennial pasture phases in dryland agricultural systems of the eastern-central wheat belt of Western Australia

Doole, Graeme John

January 2007

Over the past thirty years, price relativities and technological development have motivated an increase in the area of land allocated to cropping, as opposed to pasture production, throughout the central wheat belt of Western Australia. Nevertheless, reducing the proportion of pasture in these rotations has challenged the future productivity of farming systems in this area. First, the frequent application of selective herbicides for weed control in extended cropping rotations has promoted the development of herbicide resistance in a number of major agricultural weeds. Second, the primary use of annual plants has promoted the development of soil salinisation by allowing a significant proportion of rainfall to recharge saline water tables. The inclusion of perennial pasture phases between extended periods of cropping may mitigate or delay these constraints to production through (a) allowing the use of costeffective forms of non-selective weed control, and (b) through creating a buffer of dry soil that absorbs leakage occurring beneath subsequent crops. This study consequently explores the value of including perennial pasture phases in dryland agricultural systems in the eastern-central wheat belt of Western Australia, accounting for benefits related to herbicide resistance and water table management. A novel computational algorithm for the solution of multiple-phase optimal control problems is developed and used to conduct a conceptual analysis of the value of lucerne (Medicago sativa L.) pasture for managing annual ryegrass (Lolium rigidum Gaudin), the primary weed in wheat belt cropping systems. The competitiveness and fecundity of annual ryegrass provide strong economic incentives to maintain a low weed population, irrespective of herbicide-resistance status. Consequently, the ineffectiveness of selective herbicides primarily reduces the profitability of cropping by motivating the adoption of more costly non-selective forms of weed control. The inclusion of lucerne in land-use rotations is only optimal in the presence of severe herbicide resistance given (a) the low efficiency of alternative weed-management practices available during the pasture phase, relative to selective-herbicide application; (b) the significant cost of establishing this perennial pasture; and (c) the high relative profitability of cereal production in the absence of resistance. The value of lucerne, relative to annual pastures, for weed management is explored in greater detail through the use of compressed annealing to optimise a sophisticated simulation model. The profitability of candidate rotations is also manipulated to account for the long-term production losses accruing to the recharge of saline groundwaters that occurs beneath them. Sequences incorporating lucerne are only more profitable than those that include annual pasture at the standard set of parameter values if (a) annual ryegrass is resistant to all selective herbicides, (b) the water table is so shallow (approximately less than 3.5 m deep) that frequent rotation with perennials is required to avert soil salinisation, or (c) sheep production is highly profitable. The value of perennial pasture is sufficient under these circumstances to overcome its high establishment cost. Consistent with intuition, these benefits are reinforced by lower discount rates and higher rates of leakage occurring beneath annual-based systems. Formulation of an effective communication strategy to report these results to producers is justified given the complexity involved in determining the true magnitude of these intertemporal benefits through alternative means, such as field trials.

Crop rotation -- Western Australia

Pasture ecology -- Western Australia

Salinity control -- Western Australia

Weeds -- Control -- Western Australia

Perennial pastures

Crop rotations

Soil salinity

Western Australia

Predator interactions within a trophic level : Phalangium opilio L. (Arachnida: Opiliones) and mites (Arachnida: Acari)

Merfield, C. N.

January 2000

This study investigated commensal feeding interactions between the European harvestman (P. opilio L.) and the predatory mites Balaustium spp. and Anystis baccarum L. It also investigated the feeding behaviour of P. opilio. Experiments were conducted in the laboratory using standardised temperature, humidity, photoperiod and experimental arenas, with eggs of the brown blowfly (Calliphora stygia F.) as prey facsimiles. Due to initial difficulties in obtaining enough predatory mites, mite feeding was manually simulated piercing blowfly eggs with a minuten pin. P. opilio consumed significantly more freeze-killed than live blowfly eggs, indicating that freezing induced chemical and/or physical changes to blowfly eggs that are detected by P. opilio. Significantly more manually pierced eggs were consumed by P. opilio compared with unpierced ones, demonstrating that piercing caused a chemical and/or physical to the egg and increased the feeding rates of P. opilio. Different densities of eggs had no effect on the numbers eaten by P. opilio and placing single pierced eggs next to groups of unpierced eggs also had no effect on the numbers of unpierced eggs eaten. These results suggest that P. opilio does not exhibit klinokinesis or orthokinesis to intensify its search for prey around the area where previous prey were located. P. opilio ate significantly more brown blowfly eggs that had previously been fed on by mites, demonstrating that a short term commensal interaction existed. However, further work is required to demonstrate if the relationship is commensal in the longer term. A comparison between hand-pierced and mite-pierced eggs showed that P. opilio ate significantly more of the former indicating that mite and hand piercing were quantitatively different. The potential for, and importance of, other commensal or mutual relationships between predators in agroecosystems is discussed. The lack of klinokinesis and orthokinesis in P. opilio is compared with other predators and parasitoids that do exhibit these behaviours. The means by which prey are detected by P. opilio are discussed in relation to interpreting behaviours such as prey inspection. Concerns about the effect of pre-treatment and handling of sentinel prey and the problems of using prey facsimiles are raised.

agroecosystem

Anystis baccarum

Balaustium spp.

Calliphora stygia

commensalism

European harvestmen

klinokinesis

orthokinesis

P. opilio

predators

prey facsimiles

sentinel prey

A model system using insects to vector Fusarium tumidum for biological control of gorse (Ulex europaeus)

Yamoah, Emmanuel

January 2007

The overall objective of this study was to test the hypothesis that insects can vector F. tumidum conidia to infect gorse plants with the aim of developing an alternative approach to mycoherbicide delivery to control weeds. Four potential insect species (Apion ulicis, Cydia ulicetana, Epiphyas postvittana and Sericothrips staphylinus) were assessed for their ability to vector F. tumidum conidia. To achieve this, the external microflora (bacteria and fungi) and the size and location of fungal spores on the cuticle of these insect species were determined. In addition, the ability of the insects to pick up and deposit F. tumidum conidia on agar was studied. Based on the results from these experiments, E. postvittana was selected for more detailed experiments to determine transmission of F. tumidum to infect potted gorse plants. The factors promoting pathogenicity of F. tumidum against gorse and the pathogen loading required to infect and kill the weed were also determined. The external microflora of the four insect species were recovered by washing and plating techniques and identified by morphology and polymerase chain reaction restriction fragment length polymorphism (PCR-RFLP) and sequencing of internally transcribed spacer (ITS) and 16S rDNA. A culture-independent technique (direct PCR) was also used to assess fungal diversity by direct amplification of ITS sequences from the washings of the insects. All insect species carried Alternaria, Cladosporium, Nectria, Penicillium, Phoma, Pseudozyma spp. and entomopathogens. Ninety four per cent of the 178 cloned amplicons had ITS sequences similarity to Nectria mauritiicola. E. postvittana carried the largest fungal spores (mean surface area of 125.9 µm²) and the most fungal CFU/insect. About 70% of the fungi isolated from the insects were also present on the host plant (gorse) and the understorey grass. The mean size of fungal spores recovered from the insect species correlated strongly with their body length (R² = 85%). Methylobacterium aquaticum and Pseudomonas lutea were common on all four insect species. Pseudomonas fluorescens was the most abundant bacterial species. In the pathogenicity trials, the effectiveness of F. tumidum in reducing root and shoot biomass of 16 and 8 wk old gorse plants was significantly increased with wounding of the plants. Older plants (32 wk old) which were wounded and inoculated were significantly shorter, more infected and developed more tip dieback (80%) than plants which were not wounded (32%). This indicates that damage caused by phytophagous insect species present on gorse through feeding and oviposition may enhance infection by F. tumidum. Wounding may release nutrients (e.g. Mg and Zn) essential for conidia germination and germ tube elongation and also provide easier access for germ tube penetration. Conidial germination and germ tube length were increased by 50 and 877%, respectively when incubated in 0.2% of gorse extract solution for 24 h compared with incubation in water. Inoculum suspensions amended with 0.2% of gorse extract caused more infection and significantly reduced biomass production of 24 wk old gorse plants than suspensions without gorse extract. A minimum number of about 900 viable conidia/infection site of F. tumidum were required to infect gorse leaves. However, incorporation of amendments (which can injure the leaf cuticle) or provision of nutrients (i.e. gorse extract or glucose) in the formulation might decrease the number of conidia required for lesion formation. Scanning electron micrographs showed that germ tube penetration of gorse tissue was limited to open stomata which partly explain the large number of conidia required for infection. The flowers and leaves were more susceptible to F. tumidum infection than the spines, stems and pods. An experiment to determine the number of infection sites required to cause plant mortality showed that the entire plant needs to be inoculated in order for the pathogen to kill 10 wk old plants as F. tumidum is a non systemic pathogen. The number of infection sites correlated strongly with disease severity (R² = 99.3%). At least 50% of the plant was required to be inoculated to cause a significant reduction in shoot dry weight. F. tumidum, applied as soil inoculant using inoculated wheat grains in three separate experiments, significantly suppressed gorse seedling emergence and biomass production. In experiments to determine the loading capacity of the insect species, E. postvittana, the largest insect species studied, carried significantly more (68) and deposited significantly more (29) F. tumidum conidia than the other species. Each E. postvittana, loaded with 5,000 conidia of F. tumidum, transmitted approximately 310 conidia onto gorse plants but this did not cause any infection or affect plant growth as determined by shoot fresh weight and shoot height. E. postvittana on its own did not cause any significant damage to gorse and did not enhance F. tumidum infection. It also failed to spread the pathogen from infected plants to the healthy ones. There was no evidence of synergism between the two agents and damage caused by the combination of both E. postvittana and F. tumidum was equivalent to that caused by F. tumidum alone. This study has shown that E. postvittana has the greatest capacity to vector F. tumidum since it naturally carried the largest and the most fungal spores (429 CFU/insect). Moreover, it naturally carried Fusarium spp. such as F. lateritium, F. tricinctum and Gibberella pulicaris (anamorph Fusarium sambucinum) and was capable of carrying and depositing most F. tumidum conidia on agar. Coupled with the availability of pheromone for attracting the male insects, E. postvittana may be a suitable insect vector for delivering F. tumidum conidia on gorse using this novel biocontrol strategy. Although it is a polyphagous insect, and may visit non-target plants, F. tumidum is a very specific pathogen of gorse, broom and a few closely related plant species. Hence, using this insect species to vector F. tumidum in a biological control programme, should not pose a significant threat to plants of economic importance. However, successful control of gorse using this "lure-load-infect" concept would depend, to a large extent on the virulence of the pathogen as insects, due to the large size of F. tumidum macroconidia, can carry only a small number of it.

Fusarium tumidum

insect microflora

PCR-RFLP

ITS

16S rDNA

mycoherbicide

gorse

biological control

wounding

insect vectors

lure-load-infect

The effect of water stress, nitrogen and gibberellic acid on the phytotoxicity of post-emergent herbicides to Avena spp.

Dickson, Ross L.

January 1990

A series of experiments was carried out on cultivated oat (Avena sativa L. cv Amuri) to examine the efficacies of fluazifop-butyl and glyphosate against water stressed plants, plants grown in low and high nitrogen and plants treated with gibberellic acid (GA₃). Avena sativa L. was used as a test plant and on completion of the experiments, further studies were carried out on the weed species wild oat (Avena fatua L.). In the laboratory, plants maintained at wilting point for five days before and nine days after spraying and treated with fluazifop-butyl (0.5 kg a.i./ha) appeared healthy 32 days after herbicide application, while plants supplied with water throughout the experiment were completely chlorotic/necrotic and had main stem detachment from within the leaf sheaths. In the field, plants maintained unirrigated until 14 days after spraying with fluazifop-butyl (0.25 kg a.i./ha) or glyphosate (0.18 kg a.i./ha) showed greater tolerance to the herbicides than plants irrigated regularly. Values for seed head yield for water stressed and irrigated plants, 45 days after applying fluazifop-butyl, were 66 g and zero g dryweight/m² respectively. Comparable values for glyphosate treated plants were 65 g and 25 g dryweight/m². Radiolabel studies indicated that in comparision with well watered plants, water stressed plants absorbed 20% less applied ¹⁴C-glyphosate. In addition, the proportion of absorbed ¹⁴C-glyphosate translocated from the treated leaf was 15% less under water stress conditions. Uptake of ¹⁴C-fluazifop-butyl was similar under well watered and water stress conditions and was 30-40% of that applied. The proportion of absorbed ¹⁴C-activity which was transported was very low, but was greater under well watered conditions (7.6%) than under water stress conditions (4.4%). Under well watered conditions in the laboratory and field, fluazifop-butyl (0.25 kg a.i./ha) and glyphosate (0.18 kg a.i./ha) were less toxic at low nitrogen than high nitrogen. For example, 34 days after spraying with fluazifop-butyl under laboratory conditions total plant dry weight was 1.51 g and 0.56 g at 1.0 mol/m³ and 10 mol/m³ applied nitrate respectively. As with soil water content, soil nitrogen content had no effect on uptake of fluazifop-butyl. However, the proportion of absorbed fluazifop-butyl which was translocated out of the treated lamina was greater under high nitrogen conditions (26.1 %) than under low nitrogen conditions (9.3%). Under laboratory conditions, addition of 200 µg GA₃to the leaf sheaths two days prior to spraying with fluazifop-butyl or glyphosate increased the efficacy of both herbicides at low nitrogen. Similarly, under field conditions application of GA₃ (0.21 kg/ha) two days prior to spraying with glyphosate increased the performance of the herbicide against Avena sativa L. growing in a nitrogen depleted soil. At harvest, seed head yield for GA₃ treated and non-treated plants was zero and 7.4 g dry weight/m² respectively. Experiments with Avena latua L. showed that this species was tolerant of fluazifop-butyl and glyphosate when grown in low water or low nitrogen conditions. Under water stress conditions, pre-treatment with GA₃ increased the phytotoxicity of fluazifop-butyl to Avena latua L. Similarily, GA₃ enhanced the phytotoxicity of glyphosate to Avena latua L. grown under low nitrogen conditions. Reduced performance of fluazifop-butyl under stress conditions involves a reduction in translocation of herbicide to meristems, but other factors are likely to be involved. It was concluded that for glyphosate, reductions in uptake and translocation of the herbicide are important factors causing reduced performance of this herbicide under stress conditions. Possible reasons for GA₃ enhancement of fluazifop-butyl and glyphosate activity under stress conditions are discussed and the potential of growth regulators as adjuvants is considered.

Avena sativa L.

fluazifop-butyl

glyphosate

water stress

herbicides

weed control

nitrogen

gibberellic acid

phytotoxicity

The effect on protein synthesis in barley of infection with P. hordei

Morton, J. D.

January 1989

Infection of barley (Hordeum vulgare) leaves with the rust fungus, Puccinia hordei, causes changes in the host protein synthesis. This thesis analyses these changes in the barley cultivar Triumph following inoculation of 7-day-old leaves with either a virulent or an avirulent race of P. hordei. The initial approach was to isolate membrane-bound polysomes from infected leaves, translate them in vitro and analyse the translation products. These products include the integral membrane proteins which were expected to be involved in the response of the host to the pathogen. A method based on differential centrifugation in the presence of a ribonuclease-inhibiting buffer was developed for separating membrane-bound polysomes from the rest of the cytoplasmic polysomes. Membrane-bound polysomes were found to comprise one fifth of the total polysomes in the leaves. Analysis of the translation products of membrane-bound polysomes by SDS-PAGE showed them to be of higher average molecular weight than those from free polysomes. Comparison of polypeptides produced by membrane-bound polysomes from healthy and inoculated plants showed some differences however the low yield of membrane-bound polysomes made it difficult to obtain conclusive results. Thus it was decided to isolate total polysomes by including 1% Triton X-100 in the extraction buffer. Polysomes were extracted from 12 to 72 h after inoculation. Infection caused a decline in yield of polysomes during this period when compared with healthy leaves of the same age. Polysomes isolated 16 h after inoculation with the virulent race were 20% less efficient at translation than polysomes from control leaves. In contrast polysome isolated from leaves inoculated with the avirulent race were 20% more efficient. Analysis of the labelled translation products by SDS-PAGE and fluorography showed relative increases in the synthesis of some proteins by 16 h after inoculation with either race when compared to products from healthy leaves. Protein synthesis in the infected plants was further analysed by in vivo labelling and one- and two-dimensional PAGE. The fluorographs revealed increased synthesis of a group of proteins from 58 to 116 kDa starting 12 h after inoculation with either race of P. hordei; confirming the results from the polysome translations. Two polypeptides with molecular weights of about 66 kDa were found to increase following infection only with the virulent race. By three days after inoculation with either fungal race the most obvious change in protein synthesis was a marked decrease in the synthesis of the two most prominent polypeptides with molecular weights of 15 and 51 kDa which were considered to be the subunits of ribulose bisphosphate carboxylase. The elicitor hypothesis, in attempting to explain cultivar-specific resistance in plants, postulates that resistance is controlled by the interaction of specific fungal elicitors and plant receptors and that this interaction which only occurs between resistant hosts and avirulent pathogens triggers specific gene expression leading to resistance. This hypothesis does not fit the situation in the barley-P. hordei interaction as protein synthesis showed similar changes following infection with either a virulent or an avirulent race.

cereals

barley

Puccinia hordei

cultivar-specific

disease resistance

polysomes

proteins

membrane-bound

translation

two-dimensional

electrophoresis

rubisco

plant pathogens

060704 - Plant Pathology

Invasion success and impacts of Hieracium lepidulum in a New Zealand tussock grassland and montane forest

Meffin, Ross

January 2010

Invasive species represent a major concern; they can result in serious ecological and economic losses and are recognised as one of the most serious threats to global species diversity. Plant invasions are of particular concern in New Zealand, which has high proportions of both naturalised and endemic plant species. In this thesis I focussed on the invasive plant Hieracium lepidulum, an exotic weed introduced from Europe to New Zealand prior to 1941. It is invasive in a variety of habitats in the South Island, where it has steadily increased in distribution and abundance over the last 50 years, and is thought to have detrimental impacts on native plant communities. I investigated factors influencing its invasion success and tested for impacts on native plant communities, making extensive use of existing plots into which H. lepidulum was experimentally introduced in 2003. I examined how community richness, turnover, resource availability and propagule pressure of the invader interacted to determine the invasion success of H. lepidulum. Results differed markedly above and below treeline. Above treeline, plots with higher richness and turnover were more invaded; below treeline, plots with higher available light were more invaded. In both habitats, these findings were modified by the influence of propagule pressure; at low propagule pressure, site characteristics were non-significant in explaining invasion success, while at higher propagule pressure these effects became significant. To test for impacts resulting in altered community composition and structure, I looked for changes in community richness, diversity and evenness subsequent to H. lepidulum introduction. As impacts may be more apparent at fine spatial scales, I made measurements at a 5 x 5 cm cell scale in addition to the established 30 x 30 cm plot scale. Plot species richness increased from 2003 to 2009 and a component of this increase was associated with H. lepidulum density. Other relationships between the plant community and H. lepidulum were generally non-significant. Results showed that H. lepidulum has had no negative effects on community richness, evenness or diversity. Despite being able to opportunistically colonise grassland sites with high turnover, and forest sites subject to canopy disturbance, dependant on propagule pressure, it appears H. lepidulum has not impacted community composition or structure.

diversity

Hieracium lepidulum

exotic weeds

biological invasions

invasive species

mixed model

invasibility

turnover

carousel model

propagule pressure

invasion resistance

resource fluctuation

impact

hierarchical data

Diversity of rice weeds vegetation and its potential as local forage resource in Java, Indonesia

Kumalasari, Nur

11 June 2014

No description available.

570

cropping period

elevation gradient

fallow

herbicide treatment

plant communities

paddy fields

rice weeds

vegetation classification

simple environment

complex environment

cultivation season

multi-crop

monoculture

horticulture

cultivated

bund

landscape

biomass

fat

fiber

protein

Biologie (PPN619462639)

Effects of sheep, kangaroos and rabbits on the regeneration of trees and shrubs in the chenopod shrublands, South Australia

Palisetty, Raghunadh

January 2007

After European settlement, Australian rangelands especially in South Australia underwent significant changes because of the main land use of pastoralism. Many studies have revealed that the plant communities are negatively effected by herbivory mainly by sheep. The main aim of this study is to separate the different effects of sheep, rabbits and kangaroos. This was examined by survey supported by experimental and modelling research. A 32,000 km² area previously surveyed by Tiver and Andrew (1997) in eastern South Australia was re-surveyed to monitor populations of perennial plant species at sites of various intensity of grazing by sheep, rabbits and kangaroos (goats populations are low in the study area), the most important vertebrate herbivores. Plant population data were collected in both sheep paddocks and historically ungrazed by sheep (road reserves) by using the Random Walk method and analyzed using Generalized Linear Modelling (GLM) to separate the effects of sheep and rabbits on plant regeneration and their regeneration in response to grazing. These data were also compared to similar data collected by Tiver and Andrew in 1992 (1997) to ascertain if the reduction in rabbit numbers through introduction of RCV had allowed increased regeneration. Regeneration of many species inside paddocks were negatively affected and species in roadside reserves neither did not significantly increase from 1992 to 2004. However, some species showed increase of populations in spite of sheep grazing, with some species being less susceptible than others. This research also indicates kangaroo grazing impact on some plant species. Reduction in rabbit numbers following the 1995 release of calicivirus has not been effective in restoring regeneration. Another experiment was conducted at Middleback Field Station near Whyalla to identify herbivore grazing pressure on the arid zone plant species Acacia aneura using unfenced, sheep fenced and rabbit fenced grazing exclosures. This experiment was set up with seedlings in exclosures, ten replicates of each treatment, at plots four different distances from the watering point to identify the survivorship of seedlings. Data were collected by recording canopy volumes of seedling over an 18 month period and analyzed by Residual Maximal Likelihood (REML). Seedlings both near and far from the watering point were severely effected by large herbivores, either sheep, kangaroos or both, and in a separate experiment kangaroo grazing effects on the seedling were also identified. Seedlings browsed by the rabbits were recovered better than the seedlings grazed by the large herbivores. Decreasing kangaroo activities has been noticed when the rabbit movements increased. Computer modelling was conducted to predict the future plant population structure over 500 years using a matrix population model developed by Tiver et al. (2006) and using data collected in the survey as a starting point. Extinction probabilities of populations of Acacia aneura near watering points, far from watering points and under pulse grazing scenarios were compared. Sheep grazing was found to cause eventual extinction of populations in all parts of sheep paddocks. Together, the results indicate that sheep are the major herbivore suppressing regeneration of perennial plant species. Kangaroo and rabbits have an identifiable but lesser effect. The results have implications for conservation and pastoral management. To achieve ecological sustainability of arid lands a land-use system including a network of reserves ungrazed by sheep and with control of both rabbit and kangaroo numbers will be required.

300803 Natural Resource Management

270708 Conservation and Biodiversity

life stage

matrix model

piosphere

herbivory

rangeland

population dynamics

chenopodiaceae