Spelling suggestions: "subject:"alien 4plants"" "subject:"alien 2plants""
61 |
The role of science in issue advocacy : invasive alien plant species in the fynbos vegetation of South AfricaNaicker, Isayvani January 2012 (has links)
No description available.
|
62 |
Quantification of the cross-sectoral impacts of waterweeds and their control in GhanaAkpabey, Felix Jerry January 2012 (has links)
The Akosombo Dam on the Volta River in Ghana was built in 1963 to provide cheap energy to fuel industry and to accelerate the economic growth of the country. It provides hydroelectric power, enhanced fishing and water transportation upstream, and improved opportunities for irrigated farming, especially in the lower reaches, and their attendant economic multiplier effects. A few years after the construction of this major dam, a rapid expansion of industrialization took place in Ghana. This brought about an exponential increase in demand for more electrical power. This led to the construction of a smaller dam at Akuse, downstream of the Akosomho Dam in 1981 and the formation of a headpond at Kpong. The impoundment of the river at the two sites (Akosombo and Kpong) caused an alteration in the existing ecological and biophysical processes in the river basin, including a slowing of the flow of the river, upstream and downstream. Changes in the natural processes, such as a reduction in the flow of the river and an increase in nutrient status of the water, resulted in an invasion of aquatic weeds, increasing the density of aquatic snails (intermediate hosts of schistosomiasis), silting and closure of the estuary, as well as other more subtle effects. The invasion of the river's main course and the dams by aquatic plants led to a corresponding reduction of navigable water both upstream and downstream. The aim of this thesis was to quantify the impact and control of waterweeds, especially water hyacinth, Eichhornia crassipes (Mart) Solms-Laubach (Pontederiaceae), in Ghana. A floral survey on the Kpong Headpond recorded 49 emergent, 12 free floating and I submerged aquatic plant species, many of which were indigenous, but the exotic or introduced water hyacinth was recorded at most of the sampling sites, and was the most abundant and had the biggest impact on the utilization of the water resource. Mats of water hyacinth served as substrates for other, indigenous species to grow out into the main channel of the headpond, including the intake point of the Kpong head works of the Ghana Water Company Limited (GWCL) and landing sites for boats. These mats resulted in a reduction of the fish (fin and shell) harvest, reducing the annual production to far below demand. Water hyacinth was also shown to have severe health implications. A survey of the Ministry of Health records showed that the prevalence of both urinary and intestinal schistosomiasis had risen significantly over time as the abundance of waterweeds, most notably water hyacinth, increased, and ranged between 70% and 75% but up to 100% in some lakeside communities. Based on the work done by an NGO on board the medical boat ("Onipa Nua "), losses in terms of money due to the effect on health of the aquatic weed infestations on the Volta River in 2006 amounted to US$ 620,000. Economic losses due to invasive alien aquatic weeds were also calculated on the Oti River Arm of Lake Volta. It was estimated that about US$2.3 million per annum would be lost to the Volta Lake Transport Company and individual boat transport operators if this section of the river were 100% covered by aquatic weeds (water hyacinth and Salvinia molesta D.S. Mitchell (Salviniaceae)). It was also estimated that US$327,038 was spent annually in monitoring and managing the weeds in the Oti River. Control interventions for aquatic weeds have been implemented in river systems in Ghana. The biological control agents Neochetina bruchi Hustache (Coleoptera, Curculionidae) and Neochetina eichhorniae Warner (Coleoptera, Curculionidae) have been used on water hyacinth infestations in the Oti River Arm of Lake Volta, the Tano River and the Lagoon complex in the south-western part of the country. Cyrtobagous salviniae Calder and Sands (Coleoptera: Curculionidae) has been used to control salvinia, and Neohydronomous affinis Hustache (Coleoptera: Curculionidae) to control water lettuce, Pistia stratiotes Lilmaeus (Araceae) in the Tano River and Lagoon complex. Although these projects have been regarded as successful, they have relied on research from elsewhere in the world and no postrelease quantification has been conducted. In evaluating the impact of the biological control agents Neochetina bruchi and Neochetina eichhorniae weevils on water hyacinth infestations in the Tano River, fresh adult feeding scars were recorded as well as the numbers of adult weevils on each water hyacinth plant sampled at six sites. Despite being released in 1994, weevil numbers and resultant damage to plants in the Tano Lagoon was low in comparison to other regions of the world where these agents have been used. The main reason for this is that this lagoon floods seasonally, washing weevil-infested plants out to sea. Water hyacinth then re-infests the lagoon from seed and the weevil populations are low. To resolve this situation, two courses of action are proposed. The first is to mass rear the weevils along the shore of the lagoon and release them when the first seedlings recruit. The second proposal is that additional agents that have shorter lifecycies and are more mobile than the weevils should be released. To this end, the water hyacinth mirid, Eccritotarsus catarinensis (Carvalho) (Hemiptera: Miridae) was imported from South Africa and released onto the Tano Lagoon in 2009. Retrospective laboratory host specificity trials were conducted on Neachetina eichharniae and Neachetina bruchi weevils 15 years after their release into Ghana to see if any variation in their host ranges had occurred. Considerable damage was inflicted on the E. crassipes leaves by the Neachetina weevils, while little feeding damage was recorded on both Heteranthera callifalia Kunth. (Pontederiaceae) and Eichharnia natans (P.Beauv.) Solms (Pontederiaceae). All the weevils introduced on H callifalia and E. natans died after the first week. This study served to confirm the host specificity and thereby the safety of these agents. Invasive alien aquatic macrophytes have negative impacts on the environment and economy of Ghana. The control of these weeds is essential to socioeconomic development and improved human health standards in riparian communities. Biological control offers a safe and sustainable control option, but requires diligent implementation. However, aquatic weed invasion is more typically a result of the anthropogenically induced eutrophication of water bodies, and this is the main issue that has to be addressed.
|
63 |
Influência da composição química foliar na colonização por larvas de Chironomidae (Diptera) durante a decomposição em riachosRossi, Luciene Aparecida Leite 04 March 2016 (has links)
Submitted by Luciana Sebin (lusebin@ufscar.br) on 2016-10-07T13:06:43Z
No. of bitstreams: 1
TeseLALR.pdf: 3856057 bytes, checksum: 10fbc03e49473d6963719567da88bceb (MD5) / Approved for entry into archive by Marina Freitas (marinapf@ufscar.br) on 2016-10-13T20:05:24Z (GMT) No. of bitstreams: 1
TeseLALR.pdf: 3856057 bytes, checksum: 10fbc03e49473d6963719567da88bceb (MD5) / Approved for entry into archive by Marina Freitas (marinapf@ufscar.br) on 2016-10-13T20:05:40Z (GMT) No. of bitstreams: 1
TeseLALR.pdf: 3856057 bytes, checksum: 10fbc03e49473d6963719567da88bceb (MD5) / Made available in DSpace on 2016-10-13T20:05:57Z (GMT). No. of bitstreams: 1
TeseLALR.pdf: 3856057 bytes, checksum: 10fbc03e49473d6963719567da88bceb (MD5)
Previous issue date: 2016-03-04 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / With the purpose of elucidating some aspects concerning the influence of leaf chemical composition on Chironomidae (Diptera) larvae colonization and their role in decomposition, field experiments were carried out here presented in four chapters: i) Chemical and elemental composition of leaf litter of Hedychium coronarium, Pteridium arachnoideum and Magnolia ovata during decomposition in a low-order stream; ii) Influence of leaf chemical composition in the colonization of Hedychicium coronarium, Pteridium arachnoideum and Magnolia ovata leaf litters by Chironomidae (Diptera)
larvae; iii) Feeding habits of the Chironomidae (Diptera) larvae and their contribution to the consumption of plant tissues during decomposition in low order streams; iv) Influence of Chironomidae (Diptera) larvae in the kinetics of aerobic decomposition of Hedychium coronarium, Pteridium arachnoideum and Magnolia ovata leaf litters. The experiments were performed in low order streams in São Carlos-SP and consisted on incubation of polyethylene bottles with small holes containing dried leaves of the three plant species, being removed from time to time over 85 days. Overall, the results
indicated that: i) the invader leaf litter showed major quantities of refractory and allelopathic materials than native one; ii) differences in the leaf litter chemical composition influenced the Chironomidae larvae colonization; iii) the chironomids feeding habits differed among plant species and vary with the time of incubation of the leaf litter, amount of remaining mass and adhered organic matter; iv) Chironomidae larvae, mainly shredders, that colonize leaf litters can influence mass loss. / Buscando esclarecimentos sobre a influência da composição química foliar na colonização por larvas de Chironomidae (Diptera) e seu papel na decomposição foram realizados experimentos aqui apresentados em 4 capítulos: i) Composição química de detritos foliares de H. coronarium, P. arachnoideum e M. ovata durante a decomposição em um córrego de baixa ordem; ii) Influência da composição química foliar na colonização de detritos de H. coronarium, P. arachnoideum e M. ovata por
larvas de Chironomidae (Diptera); iii) Hábitos alimentares das larvas de Chironomidae (Diptera) e sua contribuição para o consumo de tecidos vegetais durante a decomposição de detritos em riachos de baixa ordem; iv) Influência das larvas de
Chironomidae (Diptera) na cinética da decomposição aeróbia de detritos foliares de H. coronarium, P. arachnoideum e M. ovata. Os experimentos foram realizados em riachos tropicais de baixa ordem e consistiram na incubação de frascos de polietileno com pequenos furos contendo folhas desidratadas das três espécies vegetais, sendo retirados parceladamente ao longo de 85 dias. De maneira geral, os resultados indicaram que: i) as plantas invasoras apresentaram maior teor de materiais refratários e alelopáticos do que a nativa; ii) as diferenças na composição química dos detritos influenciaram na
colonização pelas larvas de Chironomidae; iii) os hábitos alimentares de quironomídeos diferiram entre as espécies vegetais e variaram com o tempo de incubação dos detritos, quantidade de massa remanescente e matéria orgânica aderida; iv) as larvas de Chironomidae, em especial os fragmentadores, que colonizam os detritos foliares podem influenciar na perda de massa. / FAPESP: 2012/13642-8
|
64 |
Modelling plant water use of the grassland and thicket biomes in the eastern cape, South Africa: towards an improved understanding of the impact of invasive alien plants on soil chemistry, biomass production and evapotranspirationGwate, Onalenna January 2018 (has links)
It is imperative to understand the strong coupling between the carbon capture process and water use to sustainably manage rangelands. Woody encroachment is undermining rangelands grass production. Evapotranspiration (ET) highlights the links between ecosystem carbon capture process and water use. It forms the biggest flux of the hydrological cycle after precipitation yet it is not well understood. The Grassland and the Albany Thicket (AT) biomes in the Eastern Cape, South Africa, provide an interesting space to study the dynamics in rangelands biomass production and the associated water use. Therefore, the main purpose of this study was to contribute towards management of rangelands by understanding the dynamics in rangeland grass production and water use. To achieve this aim, the impact of Acacia mearnsii, an invasive alien plant, on soil chemical properties and rangelands grass production was investigated. This was achieved by analysing the biophysical attributes of A. mearnsii as they related to grass production. Secondly, selected soil variables that could be used as a prognosis for landscape recovery or deterioration were evaluated. In addition, aboveground grass biomass was measured in areas cleared of A. mearnsii and regression equations were prepared to help model aboveground grass biomass in areas cleared of A. mearnsi. The thesis also explored dynamics in water vapour and energy fluxes in these two biomes using an eddy covariance system. Consequently, water vapour and energy fluxes were evaluated in order to understand landscape water use and energy partitioning in the landscape. The study also tested the application of Penman-Monteith equation based algorithms for estimating ET with micrometeorological techniques used for validation. Pursuant to this, the Penman- Monteith-Leuning (PML) and Penman-Monteith-Palmer (PMP) equations were applied. In addition, some effort was devoted to improving the estimates of ET from the PMP by incorporating a direct soil evaporation component. Finally, the influence of local changes in catchment characteristics on ET was explored through the application of a variant of the Budyko framework and investigating dynamics in the evaporative index as well as applying tests for trends and shifts on ET and rainfall data to detect changes in mean quaternary catchment rainfall and ET. Results revealed that A. mearnsii affected soil chemical properties and impaired grass production in rangelands. Hence, thinning of canopies provided an optimal solution for enhanced landscape water use to sequestrate carbon, provide shade, grazing, and also wood fuel. It was also shown that across sites, ET was water limited since differences between reference ET and actual ET were large. ET was largely sensitive to vapour pressure deficit and surface conductance than to net radiation, indicating that the canopies were strongly coupled with the boundary layer. Rangeland ET was successfully simulated and evaporation from the soil was the dominant flux, hence there is scope for reducing the so-called ‘unproductive’ water use. Further, it was shown that the PML was better able to simulate ET compared to the PMP model as revealed by different model evaluation metrics such as the root mean square error, absolute mean square error and the root mean square observations standard deviation ratio. The incorporation of a soil evaporation component in the PMP model improved estimates of ET as revealed by the root mean square error. The results also indicated that both the catchment parameter (w) and the evaporative index were important in highlighting the impacts of land cover change on ET. It was also shown that, despite changes in the local environment such as catchment characteristics, global forces also affected ET at a local scale. Overall, the study demonstrated that combining remote sensing and ground based observations was important to better understand rangeland grass production and water use dynamics.
|
65 |
The invasion of pteronia incana (blue bush) along a range of gradients in the Eastern Cape Province : it's spectral chacteristics and implications for soil moistureOdindi, John Odhiambo January 2009 (has links)
Extensive areas of the Eastern Cape Province have been invaded by Pteronia incana (Blue bush), a non-palatable patchy invader shrub that is associated with soil degradation. This study sought to establish the relationship between the invasion and a range of eco-physical and land use gradients. The impact of the invader on soil moisture flux was investigated by comparing soil moisture variations under grass, bare and P. incana invaded surfaces. Field based and laboratory spectroscopy was used to validate P. incana spectral characteristics identified from multi-temporal High Resolution Imagery (HRI). A belt transect was surveyed to gain an understanding of the occurrence of the invasion across land use, isohyetic, geologic, vegetation, pedologic and altitudinal gradients. Soil moisture sensors were calibrated and installed under the respective surfaces in order to determine soil moisture trends over a period of six months. To classify the surfaces using HRI, the pixel and sub-pixel based Perpendicular Vegetation Index (PVI) and Spectral Mixture Analysis (SMA) respectively were used. There was no clear trend established between the underlying geology and P. incana invasion. Land disturbance in general was strongly associated with the invasion, as the endemic zone for the invasion mainly comprised abandoned cultivated and overgrazed land. Isohyetic gradients emerged as the major limiting factor of the invasion; a distinct zone below 619mm of mean annual rainfall was identified as the apparent boundary for the invasion. Low organic matter content identified under invaded areas was attributed to the patchy nature of the invader, leading to loss of the top soil in the bare inter-patch areas. The area covered by grass had consistently higher moisture values than P. incana and bare surfaces. The difference in post-rainfall moisture retention between grass and P. incana surfaces was significant up to about six days, after which a near parallel trend was noticed towards the ensuing rainfall episode. Whereas a higher amount of moisture was recorded on grass, the surface experienced moisture loss faster than the invaded and bare surfaces after each rainfall episode. ii There was consistency in multi-temporal Digital Number (DN) values for the surfaces investigated. The typically low P. incana reflectance in the Near Infrared band, identified from the multi-temporal HRI was validated by field and laboratory spectroscopy. The PVI showed clear spectral separability between all the land surfaces in the respective multi-temporal HRI. The consistence of the PVI with the unmixed surface image fractions from the SMA illustrates that using HRI, the effectiveness of the PVI is not impeded by the mixed pixel problem. Results of the laboratory spectroscopy that validated HRI analyses showed that P. incana’s typically low reflectance is a function of its leaf canopy, as higher proportions of leaves gave a higher reflectance. Future research directions could focus on comparisons between P. incana and typical green vegetation internal leaf structures as potential causes of spectral differences. Collection of spectra for P incana and other invader vegetation types, some of which have similar characteristics, with a view to assembling a spectral library for delineating invaded environments using imagery, is another research direction.
|
66 |
Estimating the willingness-to-pay for restoring indigenous vegetation at selected sites in South AfricaTessendorf, Sharon Erica January 2007 (has links)
The Working for Water (WfW) Programme is a public works programme designed to clear South Africa of invasive alien vegetation and to restore lowwater consuming indigenous vegetation in the areas that have been cleared. Funds to clear alien invasives were initially secured on the basis that such a programme would increase water runoff, facilitate biodiversity and ecosystem functioning, and provide social benefits through job creation. The economic merits of the Programme, in terms of increased water yields, has been established in the Western Cape and KwaZulu-Natal, but questioned in the Eastern and Southern Cape. However, there are economic aspects of the studies carried out in the Eastern and Southern Cape that merit more attention than was given them; one of these being the issue of non-water benefits. Preliminary figures emanating from contingent valuation pilot studies conducted at six WfW projects sites indicated that one of these non-water benefits, namely the biodiversity and ecosystem resilience benefit, could be substantial. As such, the primary objective of the present study was to apply the contingent valuation method (CVM) to value people’s preference for indigenous vegetation. This value was intended to serve as a proxy for increased biodiversity and ecosystem resilience at three WfW sites. Despite the controversy surrounding the CVM, it has been found that it is a credible valuation tool. The CVM’s merits lie in its versatility and in the fact that it is the only method available which is capable of obtaining estimates of both nonuse and use values, thus making it applicable for valuing biodiversity. The primary aim of a CVM study is to determine an estimate of the total willingness-to-pay (WTP). In this study, the total WTP figure was calculated by multiplying the median WTP for the local WfW Programme by the total number of user households. The respective total WTP amounts are shown in Table 1. It was anticipated that respondents would be willing to pay more for the national WfW Programme, than for the less inclusive good (i.e. the local WfW Programme). The results correspond with this expectation at the Port Elizabeth and Underberg sites. However, due to strategic factors Worcester respondents were willing to pay more for the local WfW Programme than for the national Programme.
|
67 |
Monitoring the re-growth rate of alien vegetation after fire on Agulhas Plain, South AfricaFatoki, Oluwakemi Busayo 03 1900 (has links)
Thesis (MSc (Geography and Environmental Studies))--University of Stellenbosch, 2007. / The Agulhas Plain, an area rich in fynbos, was monitored within six months after the February
2006 fire. The potential of using medium resolution imagery, specifically from the Moderate
Resolution Imaging Spectroradiometer (MODIS) in determining the re-growth rates of
indigenous and alien vegetation types after fire was explored. Pixels representing dense areas of
each vegetation type were selected. There was a significant difference in the pixels selected for
each vegetation type. A time series of Normalized Difference Vegetation Index (NDVI) data
was derived and fitted to functions, such as Double Logistics and Asymmetric Gaussian as
implemented in the TIMESAT software. The results show that alien vegetation grows faster
after a fire occurrence than in its absence. Within the specified months of monitoring, it was
observed that fynbos grew faster than the alien vegetation. Also, the re-growth rates of
vegetation on the coastal soils were higher than those of vegetation on the inland soils. The
determination of the re-growth rate was necessary to assist resource managers determine the
appropriate time for follow-up of clearing invaded sites after fire.
|
68 |
On the implementation effectiveness and efficiency of ecological interventions in operational contexts : the case of Working for WaterMcConnachie, Matthew Morgan January 2013 (has links)
There is little understanding of the implementation efficiency and effectiveness of restoring plant invaded landscapes within operational contexts. South Africa's Working for Water (WfW) programme is arguably the most ambitious alien plant control programme in the world, yet little is known about its cost-effectiveness and the challenges it faces in linking poverty and environmental objectives. My first aim was to assess the cost-effectiveness of invasive plant removal, and the factors that underpin its effectiveness over large spatial and temporal scales. The second aim was to compare the accuracy of evidence-based findings with managers' experience-based beliefs, and to assess whether managers are willing to change their beliefs after being exposed to it. The third aim was to assess the costs and benefits of removal versus removal followed by active native re-vegetation. My final aim is to assess the challenges and lessons learnt by managers linking ecological restoration with poverty alleviation objectives, specifically within the public works model. My study area was focused primarily on two WfW river catchment projects in the western region of the Eastern Cape province. I adopted an interdisciplinary approach drawing from a range of methods such as observational studies, statistical modelling and interviews with managers. The key findings were that control efforts in the two catchment projects are largely inadequate owing to many sites being re-invaded and not enough resources being allocated to the catchments. It would take between 54 and 695 years to clear the respective catchments. In terms of cost-effectiveness, my results exceeded previous estimates by 1.5 to 8.6 times for each catchment project. After being exposed to the evidence-based findings, the managers did not change their beliefs when it came to forecasting the future effectiveness. I found that active native re-vegetation after removal of invasive plants is very costly and that priority should be given to understanding the effectiveness of the removal treatments on native species recovery. The managers cited significant challenges in effectively and efficiently meeting the programmes dual objectives. Based on a broader review of the public works literature I recommend WfW re-examine the type of public works they currently use.
|
69 |
Vulnerability of selected native and invasive woody species to streamflow variability in Western Cape fynbos riparian ecotonesCrous, Casparus Johannes 03 1900 (has links)
Thesis (MScConsEcol (Conservation Ecology and Entomology))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Riparian ecosystems of the Mediterranean south-western Cape region are projected to experience
significant decreases in streamflow due to climate change and increased demands for water associated
with human demographic trends and increasing living standards. Aggravating this problem are woody
invasive alien plants, such as Acacia mearnsii, whose impacts, including those on catchment water
yields, have justified extensive eradication programmes such as Working for Water (WfW). WfW has
been highly successful in managing invasive alien species in some areas, while at the same time
enhancing the quality of life of poor South Africans. Unfortunately, the managers of these eradication
initiatives often experience a lack of information on the species- and site-specific ecological properties
that may aid in prioritising sites more prone to invasion, essentially inhibiting accurate management
output. Knowledge, such as that associated with the possible future distribution of invasive species in
a changing environment, may help to optimise eradication initiatives. I therefore determined whether
woody plants portray different physiological (vulnerability to cavitation) and wood anatomical traits
(wood density, vessel resistance to implosion, vessel lumen and wall diameters) across three
prominent riparian zones in the south-western Cape that each differ in streamflow quantity – to gain a
mechanistic understanding of how woody species, especially invasive species, adapt their hydraulic
strategy across this proxy for water availability. Using factorial ANOVA’s, to distinguish any
differences in plant physiological and wood anatomical responses to water availability within and
between species, showed Acacia mearnsii having consistently higher drought-tolerance (lower P50
values and denser wood) compared to native species under reduced water availability. These results
supported the significant variation in drought-tolerance strategies that exist within and between
taxonomically different species across different environments. Water availability thus has a strong
selective effect on functional traits of species; however, minimum water potentials were more useful
in describing in situ hydrological conditions than streamflow. Additionally, a non-causal relationship
between wood anatomical traits and drought-induced cavitation was observed. Therefore, using only
wood anatomical measurements to assess drought-tolerance of species might not be accurate across all
species. This mechanistic approach to assess the invasive potential of species under projected drier
conditions has great practical value. It can be used to improve species selection for restoration
initiatives, and is of great value for future use in prioritizing eradication programmes. / AFRIKAANSE OPSOMMING: Rivieroewer ekosisteme in die Mediterreense Suidwes-Kaap streek kan groot afnames in stroomvloei
verwag, wat meestal toegeskryf kan word aan klimaatsverandering en die verhoogde aanvraag na
water geassosieerd met stygende populasiegrootte. Uitheemse indringerplante soos Acacia mearnsii
vererger hierdie probleem. Laasgenoemde spesies plaas groot druk op opvanggebiede se water
opbrengs, en vorm grootliks die rede waarom uitroeiing programme soos Werk vir Water (WfW)
gestig is. WfW het al groot suksesse behaal in die bestuur van uitheemse indringerplante, en
terselfdertyd die lewenskwaliteit van arm Suid-Afrikaners verhoog. Ongelukkig sukkel hierdie
indringer uitroeiing inisiatiewe telkens met ongenoegsame bewyse wat kan help om leiding te verskaf
by die prioritisering van areas meer geneig tot indringing. Die gevolg is dat onvoldoende bestuurs
besluite gemaak kan word. Gevolglik sal kennis geassosieerd met die moontlike toekomstige
verspreiding van hierdie indringerplant in ʼn veranderlike omgewing help om uitroeiing programme
meer akkuraat te stel en gevolglik waardevol wees t.o.v. prioritisering van kwesbare areas. Die doel
van hierdie studie was om die kwesbaarheid van sleutel inheemse houtagtige rivier spesies en veral die
dreigende indringerplant Acacia mearnsii, te bestudeer in terme van verlaagde stroomvloei soos
voorspel vir die Wes-Kaap fynbos ekosisteem. Deur te bepaal of houtagtige plante verskillende
fisiologiese (kwesbaarheid teen xileem blokkasie) en anatomiese (hout digtheid, vat
weerstandbiedendheid teen inmekaarkolking, vat holte en wand deursnee) hidrologiese eienskappe
tentoonstel gemeet tussen drie prominente rivieroewer sones in die suidwes Kaap wat variëer in
stroomvloei kwantiteit, verskaf ʼn meganistiese begrip van hoe spesies, veral die indringerplante, hul
hidrologiese strategieë ten opsigte van droogtes kan aanpas. Faktoriële ANOVAS’s tussen spesies en
liggings het getoon dat beide plant fisiologiese en hout anatomiese data beduidend variëer tussen
taksonomies verskillende spesies. Veral Acacia mearnsii het deurgaans laer P50 waardes asook hoër
houtdigtheid getoon, ‘n teken van hierdie spesies se verhoogde droogte toleransie in vergelyking met
die inheemse spesies. Wat beduidend is is dat spesies-spesifieke lewensstrategieë ten opsigte van
droogte toleransie in hierdie rivieroewer sones voorkom. Resultate het bevestig dat water
beskikbaarheid ʼn groot rol speel in die seleksie van funksionele karaktereienskappe in plante, maar,
dat minimum water potensiaal meer akkuraat was om in situ hidrologiese toestande te beskryf as wat
stroomvloei kon. Die verhouding tussen plant fisiologiese en hout anatomiese karaktereienskappe was
indirek as gevolg van spesies-spesifieke lewensstrategieë. Gevolglik sal die allenige gebruik van hout
anatomiese eienskappe om droogte toleransie in plante te assesseer onakkuraat wees omdat daar ʼn
swak verhouding tussen hout anatomie en droogte-geïnduseerde xileem blokkasie bestaan. ʼn
Meganistiese benadering om die indringing potensiaal van spesies onder voorspelde droër kondisies te
assesseer, asook om spesies seleksie vir restourasie doeleindes op te skerp, is prakties uitvoerbaar, en
van groot waarde vir toekomstige gebruik in uitroeiing en restourasie inisiatiewe.
|
70 |
Impacts of the invasive reed Arundo donax on biodiversity at the community-ecosystem level.Guthrie, Gené January 2007 (has links)
<p>Arundo donax is an invasive species that mostly impacts on sensitive riparian ecosystems. Arundo is also invasive in South Africa, though less is known about its ecology, biology, and impacts. Since California and the Western Cape of South AFrica have similar Mediterranean-type climates, we could assume that the impacts of Arundo on ecosystems in California are likely to be similar in the Western Cape, and that control methods used could be extrapolated for use in South Africa. This thesis attempted to determine what impact Arundo has on biodiversity at the community-ecosystem level.</p>
|
Page generated in 0.0558 seconds