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Single tree water use and water-use efficiencies of selected indigenous and introduced forest species in the southern Cape region of South AfricaMapeto, Tatenda January 2015 (has links)
In South Africa, the limited extent of indigenous forests accelerated the development of fast-growing introduced species plantations, on which the country is now heavily reliant for its fibre and timber products. However, the plantation forestry industry is challenged with limited freshwater resources, the need for sustainable management of introduced tree species in commercial forest production systems, and a diversity of plant ecological production factors such as soils that have to be manipulated for the purposes of increasing production capacities. Additionally, plantations are established in the limited high rainfall regions of the country and the industry’s water use has been regulated since 1972. Conversely, natural forests also provide valuable goods, however, their slow growth rates have restricted their development as commercial tree production systems. In this regard the forestry industry is continuously seeking to provide for the country’s timber and fibre needs while ensuring the provision of other ecosystem services from tree production systems. Recent developments in the forestry industry have therefore been focused on water use efficiency in current and alternative tree production systems. There is also widespread unsubstantiated belief that indigenous tree species are efficient users of water. Against this background this study sought to explore the single tree water use and water use efficiencies of introduced commercial plantation species (Pinus radiata) and that of important indigenous species (Ilex mitis, Ocotea bullata and Podocarpus latifolius) for timber and fibre production in the southern Cape region of South Africa. Single tree water use measurements were carried out for a year using the heat pulse velocity method. Growth measurements for utilisable stem wood were done on a quarterly basis for the specimen trees and growth increments over the year were determined. Single tree water use efficiency was a calculated as a function of grams of stem wood gained per litre of water transpired. Measurements of daily weather conditions and soil water content were concurrently taken during the year. The relationships between the variables that express daily climatic conditions, soil water content and daily volumes of transpired water were explored. Empirical models for the prediction of daily transpiration as a function of climate and soil water content were then developed using multiple linear regression analysis. Pinus radiata trees exhibited higher totals of volumetric transpiration than the indigenous species. The water use patterns of Pinus radiata showed higher peaks of maximum and minimum daily and seasonal water use while the indigenous species showed temperate patterns of water use throughout the year. Podocarpus latifolius attained the lowest water use efficiency in the year (0.49g/L) while Pinus radiata, Ocotea bullata and Ilex mitis had comparable water use efficiency values ranging between 1g/L to 2.50g/L. Significant positive correlations existed between climatic variables and daily sapflow volumes of the tree specimens. Daily total solar radiation showed the highest positive correlation with daily transpiration and the average value of the correlation coefficient for solar radiation and water use for all tree species was 0.70 (p < 0.001). Empirical models for predicting daily water use integrated the variables expressing plant available moisture and energy. The study enhances our understanding of single tree water use, water use efficiency, the drivers of transpiration and the applicability of such studies in developing rapid estimation techniques for water use in current and alternative South African tree production systems.
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An evaluation of selected appropriate irrigation technologies for small-scale farmers.Kedge, Caryn Julie. January 2001 (has links)
South Africa lacks affordable irrigation technologies suited entirely to the needs of
small-scale farmers. This is mainly due to the past emphasis on large, commercial
farming technologies and the misunderstanding that emerging farmers can utilise
scaled down versions of such technologies. It is now believed that increased
irrigation amongst smallholders could largely assist with food security and poverty
alleviation in South Africa.
The object of this project was therefore to evaluate selected appropriate irrigation
technologies that are currently being used in other developing countries with the
intention of introducing them into South Africa. A literature review on all the irrigation
technologies currently being used by small-scale farmers in South Africa was
performed. The literature review provided information on the factors affecting the
adoption of irrigation technologies.
Selected technologies, namely, various low-cost, manual pumps and drip irrigation
kits were then imported and evaluated under local conditions. The evaluation process
was divided into two sections. Qualitative evaluations were carried out on farms and
by farmers themselves and quantitative evaluations were carried out in laboratories
and closely monitored field trials. A South African prototype pump was then designed
and built following the knowledge gained from testing the imported pumps. The
prototype was tested and then refined and rebuilt.
The qualitative test results showed a very positive reaction from farmers towards the
pumps. The drip irrigation kits were often not used as a result of a lack of
understanding by the farmers. The laboratory test phase highlighted the more critical
components of the pumps. A recommended introduction strategy was then
developed and is presented. This evaluation process and introduction strategy could
in future be used as a guideline when developing other suitable technologies for
small-scale farmers.I wish to certify that the work reported in this dissertation is my own unaided work
except where specific acknowledge is made. In addition I wish to declare that this
dissertation has not been submitted for a degree in any other university. / Thesis (M.Sc.)-University of Natal, Durban, 2001.
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Comparative analysis of technical efficiency on different management systems of irrigation schemes in Limpopo Province, South Africa : a stochastic frontier production approachHlongwane, Johannes Jan January 2015 (has links)
Thesis (Ph.D. (Agricultural Economics)) -- University of Limpopo, 2015 / Various types of management practices/institutional arrangements of the irrigation
schemes exist in the world. According to the principles delineated in literatures, these
irrigation schemes are categorized in terms of their management practices. The study was
designed to compare the level of technical efficiency of farmers at different management
practices of the irrigation schemes (i.e. integrated, specialised and multipurpose water
management practices of the irrigation schemes) in Limpopo Province. Data were
collected using a structured questionnaire which was administered on 200 farmers at
different irrigation schemes. Stochastic frontier production function of Cobb-Douglas type
was employed to analyse the data and thereby ascertain the level of technical efficiency
and its determinants.
The results indicated the mean technical efficiency of 0.74, 0.72 and 0.76 for the
integrated, specialised and multipurpose water management practices of the irrigation
schemes respectively which implied that, there is a greater scope to increase maize,
tomato, onion and spinach production with the current technology and resources available
at the irrigation schemes. The most important contributors in maize, tomato, onion and
spinach production efficiencies were seed, fertilizer, capital and land. Thus an appropriate
amount of seed, fertilizer, capital and land could increase the productivity of maize,
tomato, onion and spinach.
The results further revealed that education level of farmers, age of the farmers and land
size were negatively significant toward the technical inefficiency of farmers at different
irrigation schemes, which imply that an increase in any of the three variables will reduce
the inefficiency and enhance the efficiency. While the family size of the farmer was
positively significant, which implies that the bigger the family size, the higher the
inefficiency farmers would become for the production of maize, tomato, onion and spinach. Gender and income level of the farmers at different irrigation schemes were revealed to be insignificant toward the inefficiency. The institutional arrangements or the management practice of the irrigation schemes showed slight differences in affecting the efficiency of farmers at different irrigation schemes.
Policies designed to educate famers at different irrigation schemes through proper
agricultural extension services could have a great impact in increasing the level of
efficiency and hence maize, tomato, onion and spinach productivities. The Department of
Agriculture should allocate more funds to strengthening the extension directorate and
expanding the delivery of extension services to farmers at different irrigation schemes.
Irrigation schemes were established in order to insure food security, alleviate poverty, job
creation, among others. Therefore, it is of paramount importance for the government of
South Africa in collaboration with the private sector to revitalise the irrigation schemes in
Limpopo Province irrespective of the institutional arrangements. It is of vital concern for the policy makers to focus on the benefits of economies of scale in agricultural farming
system. Therefore, land size should be increased for the farmers in integrated water
management practice of the irrigation schemes to an optimum level in order for them to
improve the level of technical efficiency.
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Assessing the use of wetting front detectors in water management at Dzindi Small Small Scale Irrigation Scheme in Limpopo ProvinceMaduwa, Khathutshelo 18 April 2017 (has links)
MESHWR / Department of Hydrology and Water Resources / Irrigation uses the largest amount of water, estimating to 60 % of the total consumption in South Africa. For this reason, the efficient and reasonable use of water by irrigators is of paramount importance. Thus, this study was carried out to assess the suitability of Wetting Front Detectors (WFDs) in improving water management. The study involved an on-farm survey; field installations; testing of WFD technology on selected plots within the scheme; identification of the crops grown; documentation of the current water supply and documentation of the challenges faced by farmers in relation to irrigation. These were carried out to identify the ideal situations in the scheme. Irrigation scheduling helps farmers to know when to irrigate and amount of water required supplying for crop need. The study presented WFD, as a means of improving irrigation efficiency. The WFD is a simple tool that helps farmers to identify what is occurring around the root zone. Four plots with a representative farmer in each of the plot were identified in four Blocks (Block 1 farmer 1, Block 1 farmer 2; Block 2 farmer 1; Block 3 farmer 1 and Block 4 farmer 1). On-farm experiment of the WFD was carried out. However, with Block 4 farmer 1, insufficient data was collected due to absence of LongStop equipment. This also involved field installation, observation and measurements of the LongStops (LSs) and FullStops (FSs) WFDs at placement depth of 30 cm, 45 cm and 60 cm. The efficiency of an irrigation system depends on different performance indicators including Irrigation Efficiency (IE), Conveyance Efficiency (CE), Application Efficiency (AE), Storage Efficiency (SE), Distribution Uniformity (DU) and Coefficient uniformity (CU). In this study, attention was focused only on DU; CU and SE, as represented by water moisture availability. All the DU for all plots in blocks were below the standard DU of furrow, which is 65%. Farmer 2, in Block 1, had a higher DU and CU, which were 60% and 68%, respectively- considered closer to the standard DU value. For the other farmers, their DU and CU prior to irrigation were very low, which indicated that there was uneven distribution of water in these plots. The poor DU in Block 1 farmer 1, indicated by the uneven infiltrated water, resulted in excessive watering. Analysing the WFD showed that farmers were performed well in all the Blocks, except for farmer 1 in Block 1. Average soil moisture content result indicated high water loss through deep percolation. The highest volumes of water recorded before and after irrigation were 131 ml and 159 ml, respectively, for LS90 placed at a depth of 90 cm in Block 2 farmer 1. High volumes of water were collected in Block 1 farmer 2, Block 2 farmer 1 and Block 3 farmer 1 before and after irrigation. The result showed that, the more placement depth down the soil profile, the more accumulation of water in the LSs. Therefore, it was recommended that farmers continue to use the WFD as a tool for irrigation efficiency. However, there is need for improvement and capacity building in using the tool.
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