Diffusion, cation exchange and hydrolysis during the reclamation of saline, clay soils

Pateras, Dimitrios Thomas

January 1990

No description available.

631.4

Soils affected by salt

Vrese en hanteringstrategieë van Wes-Kaapse MIV/VIGS-geaffekteerde kinders en versorgers : ‘n normatiewe populasie met ‘n spesiale leefwêreld

Zwemstra, Pieter Jacobus

12 1900

Thesis (MSc (Psychology))--Stellenbosch University, 2008. / As part of the South African government’s strategy to support those with HIV/AIDS and their relatives, HIV/AIDS service points have been established at Public Health Facilities. An increasing number of HIV-positive children and their caretakers receive treatment here. Indirectly the paediatric patients’ uninfected caretakers and the adult patients’ children also come into contact with the Public Health System during visits. The HIV-positive and uninfected children and caretakers form a heterogeneous HIV/AIDS-affected population, which may experience particular fears due to their particular circumstances. Circumstance-particular coping strategies may be necessary. Children do, however, also experience normative childhood fears and their coping strategies display developmental characteristics. Direct and indirect learning experiences furthermore may contribute to children’s experience of fear. The participants were 40 HIV/AIDS-affected children (M = 9.4 years; HIV-positive = 30.0%) and their caretakers (N = 34; M = 36.7 years; HIV-positive = 76.5%) who had been in contact with the Public Health System of the Western Cape Province, South Africa. There were five sub-objectives. Regarding the children the objectives were to consider, against the background of normative literature, whether the target group was a special population regarding their (1) fears and (2) coping strategies. Furthermore the objective was (3) to get to know the children’s world through their learning experiences. Concerning the caretakers the objectives were to explore their personal (4) fears and (5) coping strategies. In addition the caretakers’ perceptions about their children’s fears and coping strategies were gathered. The study was explorative and a mixed methodological research model was used. Data were gathered through individual interviews. The children also completed the Goodenough-Harris Drawing Test (GHD) and the caregivers a demographic questionnaire. Data were analysed by using a combination of qualitative and quantitative strategies. The children reported normative childhood fears, mainly of wild animals. A substantial minority of the children reported fears connected to crime, an unsafe transport system, death, illness, and HIV/AIDS and special circumstances were therefore identified. The children’s coping strategies were circumstance-specific and problem-focused avoidance reported most. Living in a modern society these children’s fears have also been influenced by for instance television. The fears and coping strategies reported by the children and their care-takers’ perceptions thereof, concurred. The caretakers’ personal fears mainly were connected to psycho-social needs and social roles, which stand central during adulthood. Specifically fears about the children’s welfare were reported most. The caretakers reported crime and animalrelated fears similar to their children. A search for social support as well as preventative action were the coping strategies that were reported most. A noteworthy preventative-action strategy seemed to be healthy eating habits, given the controversy about natural products being used as HIV/AIDS treatment within the South African context. The findings were integrated within a systems-theoretical framework. The fears and coping strategies of the HIV/AIDSaffected children and their caretakers were interpreted to be the result of an interaction between their personal characteristics and their social environment.

MIV/Vigs

HIV/AIDS-affected children

HIV/AIDS-affected caregivers

Fears

HIV/AIDS-affected children -- Support

Salinity effects on 4D recombinant tetraploid wheat genotypes

Khan, Javed Ahmad

January 1996

No description available.

590

Salt affected soils; Salt tolerant crops

Changes in properties of vineyard red brown earths under long - term drip irrigation, combined with varying water qualities and gypsum application rates

Clark, Louise Jayne

January 2004

Irrigation water of poor quality can have deleterious effects on soils. However, the effect of drip irrigation on seasonal and long term (e.g. over 50 years) changes in soil chemical properties is poorly understood, complicated by the two-dimensional water flow patterns beneath drippers. Field and laboratory experiments were conducted, along with computer modelling, to evaluate morphological and physio-chemical changes in a typical Barossa Valley Red Brown Earth (Palexeralf, Chromosol or Lixisol) when drip irrigated under various changing management practices. This work focused on the following two management changes : (i) switching from long-term irrigation with a saline source to less saline water and (ii) gypsum (CaSO₄) application. A literature review (Chapter 1) focuses on the distribution, features, properties and management of Red Brown Earths in the premium viticultural regions of the Barossa Valley and McLaren Vale, South Australia. The effects of irrigation method and water quality on the rate and extent of soil deterioration are emphasised. The review also discusses the irrigation of grapes (Vitis vinifera) and summarises previous research into the effect of sodicity and salinity on grape and wine characteristics. This chapter shows the importance of Red Brown Earths to Australian viticulture, but highlights their susceptibility to chemical and physical degradation. Degradation may be prevented or remediated by increasing organic matter levels, applying gypsum, modifying cropping and through tillage practices such as deep ripping. Chapter 2 provides general information on the two study sites investigated, one in the Barossa Valley and the other at McLaren Vale. Local climate, geology, geomorphology and soils are described. Chapter 3 details laboratory, field and sampling methods used to elucidate changes in soil chemical and physical properties following irrigation. The genesis of the non-irrigated Red Brown Earth in the Barossa Valley is described in Chapter 4, and is inferred from geochemical, soil chemical, layer silicate and carbonate mineralogical data. Elemental gain and loss calculations showed 42% of original parent material mass was lost during the formation of A and A2 horizons, while the Bt1 and Bt2 horizons gained 50% of original parent material mass. This is consistent with substrate weathering and illuviation of clay from surface to lower horizons. The depth distributions of all major elements were similar ; the A horizon contained lower amounts of major elements than the remainder of the profile, indicating this region was intensely weathered. This chapter also compares the non-irrigated site to the adjacent irrigated site (separated by 10 m) to determine if the sites are pedogenically identical and geochemical changes from irrigation. Many of the differences between the non-irrigated and irrigated sites appear to be correlated with variations in quartz, clay, Fe oxide and carbonate contents, with little geological variation between the sample sites. In Chapter 5 morphological, chemical and physical properties of a non-irrigated and irrigated Red Brown Earth in the Barossa Valley are compared. Alternating applications of saline irrigation water (in summer) and non-saline rain water (in winter) have caused an increase in electrical conductivity (EC [subscript se]), sodium adsorption ratio (SAR), bulk density (ρ b) and pH. This has resulted in enhanced clay dispersion and migration. Impacts on SAR and ρ b are more pronounced at points away from the dripper due to the presence of an argillic horizon, which has greatly influenced the variations in these soil properties with depth and distance from the dripper. Dispersion and migration of clay were promoted by alternating levels of EC, while SAR remained relatively constant, resulting in the formation of a less permeable layer in the Bt1 horizon. Clay dispersion (breakdown of micro-aggregate structure) was inferred from reduced numbers of pores and voids, alterations in colouring (an indication that iron has changed oxidation state) and increased bulk density (up to 30 %). Eleven years of irrigation changed the soil from a Calcic Palexeralf (non-irrigated) to an Aquic Natrixeralf (irrigated) (Soil Survey Staff, 1999). These results, combined with data from Chapter 4, were used to develop a mechanistic model of soil changes with irrigation. Chapters 6, 7 and 8 describe field experiments conducted in the Barossa Valley and McLaren Vale regions. This data shows seasonal and spatial variations in soil saturation extract properties ( EC [subscript se], SAR [subscript se], Na [subscipt se] and Ca [subscript se] ). At the Barossa Valley site (Chapter 6) non-irrigated soils had low EC [subscript se], SAR [subscript se], Na [subscript se] and Ca [subscript se] values throughout the sampling period. The irrigated treatments included eleven years of drip irrigation with saline water (2.5 dS / m) and also gypsum application at 0, 4 or 8 tonnes/hectare in 2001 and 2002. Salts in the profile increased with gypsum application rate, with high levels occurring midwinter 2002 prior to rainfall leaching salts. SAR has declined with gypsum application, particularly in the A horizon and at 100 cm from the dripper in the Bt1 horizon ; this has the potential to reflocculate clay particles and improve soil hydraulic conductivity. Chapter 7 presents further results from the Barossa Valley site, this treatment had been irrigated for 9 years with saline water (2.5 dS / m) prior to switching to a less saline water source (0.5 dS / m). The soil also received gypsum at 0, 4 or 8 tonnes / hectare in 2001 and 2002. It was found that the first few years are critical when switching to a less saline water source. EC declines rapidly, but SAR requires a number of years, depending on conditions, to decline, resulting in a period during which the Bt1 horizon may become dispersed. Gypsum application increased the EC [subscipt se] but not to the EC [subscript se] levels of soil irrigated with saline water. Chapter 8 examines soil chemical properties of a McLaren Vale vineyard, irrigated with moderately saline water (1.2 dS / m) since 1987 and treated with gypsum every second year since establishment. This practice prevented the SAR (< 8) rising and a large zone of the soil profile (20 to 100 cm from dripper) has a high calcium level (> 5 mmol / L). However, irrigation caused the leaching of calcium beneath the dripper in both the A and B horizons (0 to 20 cm from dripper) (< 4 mmol / L). Chapters 9 and 10 interpret and discuss results from continuous monitoring of redox potential (Eh) and soil solution composition in the Barossa Valley vineyard, irrigated with saline or non-saline water, and gypsum-treated at 0 and 4 tonnes / hectare. Soil pore water solution (Chapter 9) collected by suction cups is compared to results obtained in chapters 6 and 7. The soil has extended zones and times of high SAR and low EC. This was particularly evident in the upper B horizon, where the SAR of the soil remained stable throughout the year while the EC was more seasonally variable with EC declining during the winter months. The A horizon does not appear to be as susceptible to clay dispersion (compared to the B horizon) because during periods of low EC the SAR also declines, which may be due to the low CEC (low clay and organic matter content) of this horizon. Chapter 10 presents redox potentials (Eh) measured using platinum redox electrodes installed in the A, A2 and Bt1 horizons to examine whether Eh of the profile varies with irrigation water quality and gypsum application. Saline irrigation water caused the B horizon to become waterlogged in winter months, while less saline irrigation water caused a perched watertable to develop, due to a dispersed Bt1 horizon. Application of gypsum reduced the soil Eh particularly in the A2 horizon (+ 500 to + 50 mV) during winter. Thus redox potential can be influenced by irrigation water quality and gypsum applications. Chapter 11 incorporated site data from the Barossa Valley non-irrigated site into a predictive mathematical model, TRANSMIT, a 2D version of LEACHM. This model was used to predict zones of gypsum accumulation during long-term irrigation (67 years). When applied over the entire soil surface, gypsum accumulated at 60 to 90 cm from the dripper in the B horizon; higher application rates caused increased accumulation. When applied immediately beneath the irrigation dripper, gypsum accumulated in a 'column' under the dripper (at 0 to 35 cm radius from the dripper), with very little movement away from the dripper. Also, the zone of accumulation of salts from high and low salinity irrigation water was investigated. These regions were found to be similar, although concentrations were significantly lower with low salinity water. In low rainfall years salts accumulated throughout the B horizon (35 - 150 cm), while in periods of high rainfall (and leaching) the A, A2 and Bt1 horizons (0 - 60 cm) were leached, although at greater depths (80 - 150 cm) salt concentrations remained high. Chapter 12 summarises results and provides an understanding of soil processes in drip irrigated soils to underpin improved management options for viticulture. This study combines results from redox and soil solution monitoring, mineralogy, elemental gains and losses, and seasonal soil sampling to develop a mechanistic model of soil processes, which was combined with computer modelling to predict future properties of the soil. Major conclusions and recommendations of this study include : - Application of saline irrigation water to soil then ameliorated with gypsum - The first application of gypsum was leached by the subsequent irrigation from extended regions of the soil. As Na continues to enter the system via irrigation water, gypsum needs to be regularly applied. Otherwise calcium will be leached through the soil and SAR increases. - Application of non-saline irrigation water to soil then ameliorated with gypsum - The soil was found to only require one application at 8 tons / ha as this reduced SAR sufficiently. As less salt is entering the soil, subsequent gypsum applications can be at a lower rate or less frequently than required for saline irrigation water. - Gypsum applied directly beneath the dripper systems distributes calcium to a narrow region of the soil, while large regions of the soil require amelioration (high SAR) and are not receiving calcium. Therefore, gypsum application through the drip system or only beneath the dripper should be combined with broad acre application. - A range of methods to sample vineyards is recommended for duplex soils, including the use of saturation extracts, sampling time, sampling location (distance from dripper) and depth of sampling. This work is critical for vineyard management and may be applicable to other Australian viticulture regions with Red Brown Earths. / Thesis (Ph.D.) -- University of Adelaide, School of Earth and Environmental Sciences, 2004.

Changes in properties of vineyard red brown earths under long - term drip irrigation, combined with varying water qualities and gypsum application rates

Clark, Louise Jayne

January 2004

Irrigation water of poor quality can have deleterious effects on soils. However, the effect of drip irrigation on seasonal and long term (e.g. over 50 years) changes in soil chemical properties is poorly understood, complicated by the two-dimensional water flow patterns beneath drippers. Field and laboratory experiments were conducted, along with computer modelling, to evaluate morphological and physio-chemical changes in a typical Barossa Valley Red Brown Earth (Palexeralf, Chromosol or Lixisol) when drip irrigated under various changing management practices. This work focused on the following two management changes : (i) switching from long-term irrigation with a saline source to less saline water and (ii) gypsum (CaSO₄) application. A literature review (Chapter 1) focuses on the distribution, features, properties and management of Red Brown Earths in the premium viticultural regions of the Barossa Valley and McLaren Vale, South Australia. The effects of irrigation method and water quality on the rate and extent of soil deterioration are emphasised. The review also discusses the irrigation of grapes (Vitis vinifera) and summarises previous research into the effect of sodicity and salinity on grape and wine characteristics. This chapter shows the importance of Red Brown Earths to Australian viticulture, but highlights their susceptibility to chemical and physical degradation. Degradation may be prevented or remediated by increasing organic matter levels, applying gypsum, modifying cropping and through tillage practices such as deep ripping. Chapter 2 provides general information on the two study sites investigated, one in the Barossa Valley and the other at McLaren Vale. Local climate, geology, geomorphology and soils are described. Chapter 3 details laboratory, field and sampling methods used to elucidate changes in soil chemical and physical properties following irrigation. The genesis of the non-irrigated Red Brown Earth in the Barossa Valley is described in Chapter 4, and is inferred from geochemical, soil chemical, layer silicate and carbonate mineralogical data. Elemental gain and loss calculations showed 42% of original parent material mass was lost during the formation of A and A2 horizons, while the Bt1 and Bt2 horizons gained 50% of original parent material mass. This is consistent with substrate weathering and illuviation of clay from surface to lower horizons. The depth distributions of all major elements were similar ; the A horizon contained lower amounts of major elements than the remainder of the profile, indicating this region was intensely weathered. This chapter also compares the non-irrigated site to the adjacent irrigated site (separated by 10 m) to determine if the sites are pedogenically identical and geochemical changes from irrigation. Many of the differences between the non-irrigated and irrigated sites appear to be correlated with variations in quartz, clay, Fe oxide and carbonate contents, with little geological variation between the sample sites. In Chapter 5 morphological, chemical and physical properties of a non-irrigated and irrigated Red Brown Earth in the Barossa Valley are compared. Alternating applications of saline irrigation water (in summer) and non-saline rain water (in winter) have caused an increase in electrical conductivity (EC [subscript se]), sodium adsorption ratio (SAR), bulk density (ρ b) and pH. This has resulted in enhanced clay dispersion and migration. Impacts on SAR and ρ b are more pronounced at points away from the dripper due to the presence of an argillic horizon, which has greatly influenced the variations in these soil properties with depth and distance from the dripper. Dispersion and migration of clay were promoted by alternating levels of EC, while SAR remained relatively constant, resulting in the formation of a less permeable layer in the Bt1 horizon. Clay dispersion (breakdown of micro-aggregate structure) was inferred from reduced numbers of pores and voids, alterations in colouring (an indication that iron has changed oxidation state) and increased bulk density (up to 30 %). Eleven years of irrigation changed the soil from a Calcic Palexeralf (non-irrigated) to an Aquic Natrixeralf (irrigated) (Soil Survey Staff, 1999). These results, combined with data from Chapter 4, were used to develop a mechanistic model of soil changes with irrigation. Chapters 6, 7 and 8 describe field experiments conducted in the Barossa Valley and McLaren Vale regions. This data shows seasonal and spatial variations in soil saturation extract properties ( EC [subscript se], SAR [subscript se], Na [subscipt se] and Ca [subscript se] ). At the Barossa Valley site (Chapter 6) non-irrigated soils had low EC [subscript se], SAR [subscript se], Na [subscript se] and Ca [subscript se] values throughout the sampling period. The irrigated treatments included eleven years of drip irrigation with saline water (2.5 dS / m) and also gypsum application at 0, 4 or 8 tonnes/hectare in 2001 and 2002. Salts in the profile increased with gypsum application rate, with high levels occurring midwinter 2002 prior to rainfall leaching salts. SAR has declined with gypsum application, particularly in the A horizon and at 100 cm from the dripper in the Bt1 horizon ; this has the potential to reflocculate clay particles and improve soil hydraulic conductivity. Chapter 7 presents further results from the Barossa Valley site, this treatment had been irrigated for 9 years with saline water (2.5 dS / m) prior to switching to a less saline water source (0.5 dS / m). The soil also received gypsum at 0, 4 or 8 tonnes / hectare in 2001 and 2002. It was found that the first few years are critical when switching to a less saline water source. EC declines rapidly, but SAR requires a number of years, depending on conditions, to decline, resulting in a period during which the Bt1 horizon may become dispersed. Gypsum application increased the EC [subscipt se] but not to the EC [subscript se] levels of soil irrigated with saline water. Chapter 8 examines soil chemical properties of a McLaren Vale vineyard, irrigated with moderately saline water (1.2 dS / m) since 1987 and treated with gypsum every second year since establishment. This practice prevented the SAR (< 8) rising and a large zone of the soil profile (20 to 100 cm from dripper) has a high calcium level (> 5 mmol / L). However, irrigation caused the leaching of calcium beneath the dripper in both the A and B horizons (0 to 20 cm from dripper) (< 4 mmol / L). Chapters 9 and 10 interpret and discuss results from continuous monitoring of redox potential (Eh) and soil solution composition in the Barossa Valley vineyard, irrigated with saline or non-saline water, and gypsum-treated at 0 and 4 tonnes / hectare. Soil pore water solution (Chapter 9) collected by suction cups is compared to results obtained in chapters 6 and 7. The soil has extended zones and times of high SAR and low EC. This was particularly evident in the upper B horizon, where the SAR of the soil remained stable throughout the year while the EC was more seasonally variable with EC declining during the winter months. The A horizon does not appear to be as susceptible to clay dispersion (compared to the B horizon) because during periods of low EC the SAR also declines, which may be due to the low CEC (low clay and organic matter content) of this horizon. Chapter 10 presents redox potentials (Eh) measured using platinum redox electrodes installed in the A, A2 and Bt1 horizons to examine whether Eh of the profile varies with irrigation water quality and gypsum application. Saline irrigation water caused the B horizon to become waterlogged in winter months, while less saline irrigation water caused a perched watertable to develop, due to a dispersed Bt1 horizon. Application of gypsum reduced the soil Eh particularly in the A2 horizon (+ 500 to + 50 mV) during winter. Thus redox potential can be influenced by irrigation water quality and gypsum applications. Chapter 11 incorporated site data from the Barossa Valley non-irrigated site into a predictive mathematical model, TRANSMIT, a 2D version of LEACHM. This model was used to predict zones of gypsum accumulation during long-term irrigation (67 years). When applied over the entire soil surface, gypsum accumulated at 60 to 90 cm from the dripper in the B horizon; higher application rates caused increased accumulation. When applied immediately beneath the irrigation dripper, gypsum accumulated in a 'column' under the dripper (at 0 to 35 cm radius from the dripper), with very little movement away from the dripper. Also, the zone of accumulation of salts from high and low salinity irrigation water was investigated. These regions were found to be similar, although concentrations were significantly lower with low salinity water. In low rainfall years salts accumulated throughout the B horizon (35 - 150 cm), while in periods of high rainfall (and leaching) the A, A2 and Bt1 horizons (0 - 60 cm) were leached, although at greater depths (80 - 150 cm) salt concentrations remained high. Chapter 12 summarises results and provides an understanding of soil processes in drip irrigated soils to underpin improved management options for viticulture. This study combines results from redox and soil solution monitoring, mineralogy, elemental gains and losses, and seasonal soil sampling to develop a mechanistic model of soil processes, which was combined with computer modelling to predict future properties of the soil. Major conclusions and recommendations of this study include : - Application of saline irrigation water to soil then ameliorated with gypsum - The first application of gypsum was leached by the subsequent irrigation from extended regions of the soil. As Na continues to enter the system via irrigation water, gypsum needs to be regularly applied. Otherwise calcium will be leached through the soil and SAR increases. - Application of non-saline irrigation water to soil then ameliorated with gypsum - The soil was found to only require one application at 8 tons / ha as this reduced SAR sufficiently. As less salt is entering the soil, subsequent gypsum applications can be at a lower rate or less frequently than required for saline irrigation water. - Gypsum applied directly beneath the dripper systems distributes calcium to a narrow region of the soil, while large regions of the soil require amelioration (high SAR) and are not receiving calcium. Therefore, gypsum application through the drip system or only beneath the dripper should be combined with broad acre application. - A range of methods to sample vineyards is recommended for duplex soils, including the use of saturation extracts, sampling time, sampling location (distance from dripper) and depth of sampling. This work is critical for vineyard management and may be applicable to other Australian viticulture regions with Red Brown Earths. / Thesis (Ph.D.) -- University of Adelaide, School of Earth and Environmental Sciences, 2004.

Changes in properties of vineyard red brown earths under long - term drip irrigation, combined with varying water qualities and gypsum application rates

Clark, Louise Jayne

January 2004

Irrigation water of poor quality can have deleterious effects on soils. However, the effect of drip irrigation on seasonal and long term (e.g. over 50 years) changes in soil chemical properties is poorly understood, complicated by the two-dimensional water flow patterns beneath drippers. Field and laboratory experiments were conducted, along with computer modelling, to evaluate morphological and physio-chemical changes in a typical Barossa Valley Red Brown Earth (Palexeralf, Chromosol or Lixisol) when drip irrigated under various changing management practices. This work focused on the following two management changes : (i) switching from long-term irrigation with a saline source to less saline water and (ii) gypsum (CaSO₄) application. A literature review (Chapter 1) focuses on the distribution, features, properties and management of Red Brown Earths in the premium viticultural regions of the Barossa Valley and McLaren Vale, South Australia. The effects of irrigation method and water quality on the rate and extent of soil deterioration are emphasised. The review also discusses the irrigation of grapes (Vitis vinifera) and summarises previous research into the effect of sodicity and salinity on grape and wine characteristics. This chapter shows the importance of Red Brown Earths to Australian viticulture, but highlights their susceptibility to chemical and physical degradation. Degradation may be prevented or remediated by increasing organic matter levels, applying gypsum, modifying cropping and through tillage practices such as deep ripping. Chapter 2 provides general information on the two study sites investigated, one in the Barossa Valley and the other at McLaren Vale. Local climate, geology, geomorphology and soils are described. Chapter 3 details laboratory, field and sampling methods used to elucidate changes in soil chemical and physical properties following irrigation. The genesis of the non-irrigated Red Brown Earth in the Barossa Valley is described in Chapter 4, and is inferred from geochemical, soil chemical, layer silicate and carbonate mineralogical data. Elemental gain and loss calculations showed 42% of original parent material mass was lost during the formation of A and A2 horizons, while the Bt1 and Bt2 horizons gained 50% of original parent material mass. This is consistent with substrate weathering and illuviation of clay from surface to lower horizons. The depth distributions of all major elements were similar ; the A horizon contained lower amounts of major elements than the remainder of the profile, indicating this region was intensely weathered. This chapter also compares the non-irrigated site to the adjacent irrigated site (separated by 10 m) to determine if the sites are pedogenically identical and geochemical changes from irrigation. Many of the differences between the non-irrigated and irrigated sites appear to be correlated with variations in quartz, clay, Fe oxide and carbonate contents, with little geological variation between the sample sites. In Chapter 5 morphological, chemical and physical properties of a non-irrigated and irrigated Red Brown Earth in the Barossa Valley are compared. Alternating applications of saline irrigation water (in summer) and non-saline rain water (in winter) have caused an increase in electrical conductivity (EC [subscript se]), sodium adsorption ratio (SAR), bulk density (ρ b) and pH. This has resulted in enhanced clay dispersion and migration. Impacts on SAR and ρ b are more pronounced at points away from the dripper due to the presence of an argillic horizon, which has greatly influenced the variations in these soil properties with depth and distance from the dripper. Dispersion and migration of clay were promoted by alternating levels of EC, while SAR remained relatively constant, resulting in the formation of a less permeable layer in the Bt1 horizon. Clay dispersion (breakdown of micro-aggregate structure) was inferred from reduced numbers of pores and voids, alterations in colouring (an indication that iron has changed oxidation state) and increased bulk density (up to 30 %). Eleven years of irrigation changed the soil from a Calcic Palexeralf (non-irrigated) to an Aquic Natrixeralf (irrigated) (Soil Survey Staff, 1999). These results, combined with data from Chapter 4, were used to develop a mechanistic model of soil changes with irrigation. Chapters 6, 7 and 8 describe field experiments conducted in the Barossa Valley and McLaren Vale regions. This data shows seasonal and spatial variations in soil saturation extract properties ( EC [subscript se], SAR [subscript se], Na [subscipt se] and Ca [subscript se] ). At the Barossa Valley site (Chapter 6) non-irrigated soils had low EC [subscript se], SAR [subscript se], Na [subscript se] and Ca [subscript se] values throughout the sampling period. The irrigated treatments included eleven years of drip irrigation with saline water (2.5 dS / m) and also gypsum application at 0, 4 or 8 tonnes/hectare in 2001 and 2002. Salts in the profile increased with gypsum application rate, with high levels occurring midwinter 2002 prior to rainfall leaching salts. SAR has declined with gypsum application, particularly in the A horizon and at 100 cm from the dripper in the Bt1 horizon ; this has the potential to reflocculate clay particles and improve soil hydraulic conductivity. Chapter 7 presents further results from the Barossa Valley site, this treatment had been irrigated for 9 years with saline water (2.5 dS / m) prior to switching to a less saline water source (0.5 dS / m). The soil also received gypsum at 0, 4 or 8 tonnes / hectare in 2001 and 2002. It was found that the first few years are critical when switching to a less saline water source. EC declines rapidly, but SAR requires a number of years, depending on conditions, to decline, resulting in a period during which the Bt1 horizon may become dispersed. Gypsum application increased the EC [subscipt se] but not to the EC [subscript se] levels of soil irrigated with saline water. Chapter 8 examines soil chemical properties of a McLaren Vale vineyard, irrigated with moderately saline water (1.2 dS / m) since 1987 and treated with gypsum every second year since establishment. This practice prevented the SAR (< 8) rising and a large zone of the soil profile (20 to 100 cm from dripper) has a high calcium level (> 5 mmol / L). However, irrigation caused the leaching of calcium beneath the dripper in both the A and B horizons (0 to 20 cm from dripper) (< 4 mmol / L). Chapters 9 and 10 interpret and discuss results from continuous monitoring of redox potential (Eh) and soil solution composition in the Barossa Valley vineyard, irrigated with saline or non-saline water, and gypsum-treated at 0 and 4 tonnes / hectare. Soil pore water solution (Chapter 9) collected by suction cups is compared to results obtained in chapters 6 and 7. The soil has extended zones and times of high SAR and low EC. This was particularly evident in the upper B horizon, where the SAR of the soil remained stable throughout the year while the EC was more seasonally variable with EC declining during the winter months. The A horizon does not appear to be as susceptible to clay dispersion (compared to the B horizon) because during periods of low EC the SAR also declines, which may be due to the low CEC (low clay and organic matter content) of this horizon. Chapter 10 presents redox potentials (Eh) measured using platinum redox electrodes installed in the A, A2 and Bt1 horizons to examine whether Eh of the profile varies with irrigation water quality and gypsum application. Saline irrigation water caused the B horizon to become waterlogged in winter months, while less saline irrigation water caused a perched watertable to develop, due to a dispersed Bt1 horizon. Application of gypsum reduced the soil Eh particularly in the A2 horizon (+ 500 to + 50 mV) during winter. Thus redox potential can be influenced by irrigation water quality and gypsum applications. Chapter 11 incorporated site data from the Barossa Valley non-irrigated site into a predictive mathematical model, TRANSMIT, a 2D version of LEACHM. This model was used to predict zones of gypsum accumulation during long-term irrigation (67 years). When applied over the entire soil surface, gypsum accumulated at 60 to 90 cm from the dripper in the B horizon; higher application rates caused increased accumulation. When applied immediately beneath the irrigation dripper, gypsum accumulated in a 'column' under the dripper (at 0 to 35 cm radius from the dripper), with very little movement away from the dripper. Also, the zone of accumulation of salts from high and low salinity irrigation water was investigated. These regions were found to be similar, although concentrations were significantly lower with low salinity water. In low rainfall years salts accumulated throughout the B horizon (35 - 150 cm), while in periods of high rainfall (and leaching) the A, A2 and Bt1 horizons (0 - 60 cm) were leached, although at greater depths (80 - 150 cm) salt concentrations remained high. Chapter 12 summarises results and provides an understanding of soil processes in drip irrigated soils to underpin improved management options for viticulture. This study combines results from redox and soil solution monitoring, mineralogy, elemental gains and losses, and seasonal soil sampling to develop a mechanistic model of soil processes, which was combined with computer modelling to predict future properties of the soil. Major conclusions and recommendations of this study include : - Application of saline irrigation water to soil then ameliorated with gypsum - The first application of gypsum was leached by the subsequent irrigation from extended regions of the soil. As Na continues to enter the system via irrigation water, gypsum needs to be regularly applied. Otherwise calcium will be leached through the soil and SAR increases. - Application of non-saline irrigation water to soil then ameliorated with gypsum - The soil was found to only require one application at 8 tons / ha as this reduced SAR sufficiently. As less salt is entering the soil, subsequent gypsum applications can be at a lower rate or less frequently than required for saline irrigation water. - Gypsum applied directly beneath the dripper systems distributes calcium to a narrow region of the soil, while large regions of the soil require amelioration (high SAR) and are not receiving calcium. Therefore, gypsum application through the drip system or only beneath the dripper should be combined with broad acre application. - A range of methods to sample vineyards is recommended for duplex soils, including the use of saturation extracts, sampling time, sampling location (distance from dripper) and depth of sampling. This work is critical for vineyard management and may be applicable to other Australian viticulture regions with Red Brown Earths. / Thesis (Ph.D.) -- University of Adelaide, School of Earth and Environmental Sciences, 2004.

Humanity in crisis. HIV/AIDS and its impact on the church and community in South Africa

Pocock, John Willmer

02 February 2004

The writing of this thesis is to investigate the role that the church can have with people living with HIV / AIDS. This investigation takes us both into the role of the Evangelical Christian Church as a healing community, and becoming a haven for those who walk alone and suffer quietly because no one cares. Never before in the history of the world have we faced such a pandemic. It knows no boundaries, leaving a path of death and destruction to all who treat it lightly. HIV / AIDS has touched every community within the global village. There is not a parliament or doctor that has not pondered this terrible disease. My question through this thesis is the role of the church. Can the church rise to embrace the enormous social need that HIV / AIDS presents. South Africa is a vast land with many race and cultural groupings. Effective therapy and pastoral care I believe transcends all race and cultural barriers. All human beings respond to love and shelter, the very basic of our human needs. South Africa has the highest rate of infection in the world. It is estimated that we will have over a million orphans to care for soon. Let the church not lag behind, let us set the pace of showing the love and care for all people with HIV / AIDS. / Dissertation (MTh (Practical Theology))--University of Pretoria, 2005. / Practical Theology / unrestricted

Palliative care

Hiv

Aids

Affected

UCTD

Development of a healthy snack for children with HIV/AIDS or compromised immunity

Erasmus, Valerie

19 July 2010

Thesis. (M.Tech. (Food Service Management, Dept. of Hospitality and Tourism and PR Management))--Vaal University of Technology, 2009. / Background - Human Immunodeficiency Virus (HIV) is the virus that causes the disease Acquired Immunodeficiency Syndrome (AIDS). the IV/AIDS epidemic in Sub Saharan Africa (SSA) has already orphaned a generation of children, and it is projected that by 2010, 18 million African children under the age of 18 years are likely to be orphans (Andrew, Skinner & Zuma 2006:269-276). In 2005 approximately 4.1 million people died of AIDS-related illnesses. A common consequence of HIV/AIDS infection is malnutrition and weight loss, which is used as a diagnostic criterion for HIV/AIDS. the relationship between HIV/AIDS and malnutrition and wasting is well desccribed, with nutritional status compromised by reduced food intake, malabsorption caused by gastrointestinal involvement, increased nutritional needs as a result of fever and infection and increased nutritional losses. Malnutrition contributes to the frequency and severity of the opportunistic infections seen in HIV/AIDS and nutritional status is a major factor in survival. Failure to maintain body cell mass leads to death at 54 percent of ideal body weight. The effectiveness of nutrition intervention has been documented and counselling in dietary nutrition is considered critical in the treatment of HIV/AIDS. Objective - The main objective of this study was to determine the nutritional status of the HIV/AIDS-affected or immunity compromised children attending a care centre in Boipatong in order to develop an energy bar to address malnutrition in these children. Methodology - This was an experimental study carried out in four phases. The planning of the study constituted the first phase. In the second phase a baseline survey was conducted, in which a socio-demographic questionnaire (n=45) was administered amongst children aged six to 13, with the assistance of trained fieldworkers. Dietary intake was measured by a 24-hour recall and Food Frequency Questionnaire (FFQ) and anthropometric measurements included height and weight. The data from the socio-demographic questionnaires and FFQ were captured on an Excel spreadsheet. The Statistical Package for Social Sciences (SPSS) for Windows version 15.0 program was used to analyse the data. Descriptive statistics were used (frequencies, means and SD. The 24-hour recall was analysed for means and Standard Deviation (SD) of nutrient intakes on the FoodFinder program version 3.0 and compared to Dietary Reference Intakes (DRI). The anthropometric measurements were analysed using the WHO growth standards (2007). Phase 3 incorporated the development of the snack bar, sensory evaluation, microbiological tests for shelf life determination and chemical analyses to determine nutrient content. Phase 4 entailed the writing of the report. Results - In the baseline survey the results indicated that this was a low-income community with compromised nutrtion, mainly under-nutrition owing to poor dietary intake despite a good variety of foods in the diet. All the households included in this study were resident in Boipatong and the majority (86.5 percent) have lived in Boipatong for longer than five years. although the majority of respondents resided in brick houses (69 percent), only 30 percent had access to water inside and outside their houses, 23.1 percent had access to water, 78.4 percent had access to electricity and 75 percent had regular waste removal. The percentage of unemployed among the children's caregivers was high (60.9 percent) and the majority of households (40 percent) had an income on R500-1000 per month, with two contributors of household income in 57 percent of the households. Although the average household consisted of five people, the houses were relatively small with 75 percent of all the households having four or more rooms. All of the households experienced problems such as rodent and insect infestation. The household food security was also a dilemma in this community as 70.6 percent of the respondents indicated that they bought food only once a month and the majority of households spent less than R150 (5.4 percent of household income) on food per month i.e. less than R37.50 per week. The anthropometric results indicated 29 percent stunting, and 23 percent underweight among the boys in the target group, compared to 30 percent and 0 percent for the girls respectively. The criteria applied in developing the snack food were to achieve at least 25 percent of vitamin A, vitamin C, Vitamin E, certain B-group vitamins and minerals such as selenium, zinc and iron to meet the recommended dietary allowances (RDA). Since the results showed that 67 percent of households had an electrical stove, an easily prepared recipe was formulated which could be taught to the caregiver. Moreover, at R1.50 per person per day, the product was cost-effective and proved safe as well as acceptable to the children, thus ensuring compliance when the feeding intervention is implemented. The sensory evaluation of the snack item showed that it was acceptable to the majority of the children as it received a high score for taste, general appearance and overall acceptability. The snack food item was tested for shelf life and the results showed a shelf life of 168 days in a refrigerator and a recommeded shelf life of 21 days at room temperature (30 C). Conclusions and recommendations - The results indicated that poverty, household food insecurity and malnutrition were prevalent in this community. Furthermore, the study proved that a product could be developed to meet specific criteria. It is recommended that this product be tested in a clinical intervention study to determine the impact on the nutritional status of children with compromised immunity. / National Research Foundation

Snack food

Healthy snacks for children

南戲「三化」蛻變傳奇之探討 / A Study of the " Three Elements " Metamorphosing Nanxi into Chuanqi

吳佩熏, Wu, Pei-Hsun

Unknown Date

本文旨在論述學術意義上、體製劇種定義上的「南戲」，因為經歷「北曲化」、「文士化」與「崑曲化」的洗禮，體製規律層層蛻變，最後演化而為體製規律有別的「傳奇」。 曾師永義提出南戲「三化說」，本文據此為研究點，進一步探究三化現象的起因與結果。「北曲化」的時空背景是元代統一大江南北，促成南戲北劇的交會碰撞。而南戲進入「文士化」的歷史軌跡，從元末明初零星個案，到正德嘉靖年後南戲作家湧現的轉折點，筆者認為是正德末年武宗南巡欽點南戲南曲作家，抬升了南戲的藝術地位，環太湖流域的蘇州、南京、上海、浙江等地的文人相繼從事南戲創作，帶動了太湖流域的文人投入南戲寫作，繼而迎來了嘉靖萬曆年間吳中曲壇的盛況，也正是孕育崑山水磨調的最佳溫床。 「北曲化」的體製演進在於北曲宮調、曲牌、聯套和音樂的挹注，此時南戲尚未採用北曲的押韻，而是根據吳語音系來「一韻到底」。「文士化」意味著南戲作家身份的轉變，文人書寫南戲的同時將個人的思想情感投射到戲曲文本，直接且大力的提昇了南戲的文學層面，因此題材內容、曲文修辭明顯雅化，也促使「文士化關目」和「腳色分化」的體製演進。「崑曲化」圍繞在崑山水磨調的唱法改良，落實在音律論和演唱論兩大區塊，促使南戲體製有五項變革：曲牌八律的成熟、聯套套式的定型、排場共性的形塑、南戲韻叶官話化及一字三節的咬字行腔，而劇本體製的「開場」與「段落」也在萬曆年後的出版品中趨向整飭。 總結上述，「體製劇種」定義上的「傳奇」是以南戲為母體，與北劇之曲牌、韻協交化之後蛻變而成的南北混血兒，這個混血兒的體製規律，和宋元明南戲已經具備關鍵性的差異，所以就學術意義而言，「南戲」與「傳奇」確為兩種「體製劇種」。 / The purpose of this dissertation is to discuss the "Nanxi" based on definition of “Tizhi Juzhong” and the academic sense. As it undergoes the baptism of being affected by “Beiqu", "Wenshi," and "Kunqu", the systematic rules of Nanxi are transformed as well as metamorphosed and eventually evolve into distinct rules other than "Chuanqi". Given "Three Elements" of Nanxi that professor Yong-Yih Tseng proposed, the dissertation further explores the causes and consequences of the “Three Elements”. The historical background of "being affected by Beiqu" is the collision and interaction between the unification of both north and south China in the Yuan Dynasty. From the sporadic cases in the late Yuan Dynasty and the early Ming Dynasty to the turning point where Nanxi writers presented and appeared after the Zhengde to Jiajing years, the author believes that Wuzong’s south tour handpicking Nanxi writers in the late Zhangde year uplifted the art of Nanxi status. As afterwards, the literati in Suzhou, Nanjing, Shanghai, Zhejiang and other places around the Taihu Lake Basin have been engaged in the creation of Nanxi, led the literati in the Taihu Lake Basin into Nanxi writing, and then made Wuzhong area a grand occasion of Chinese drama in the Wanli years, also bred Kunshan Shuimo Tune the best hotbed. The systematic evolution of "Being affected by Beiqu" lies in Beiqu GongTiao, QuPai, connection, and music. At this time, Nanxi has not yet adopted the rhyme of Beiqu, but has "a rhyme to finish" based on Wu's phonology. The "being affected by Wenshi" means the transformation of the identity of the southern playwrights. When the writers wrote the Nanxi, they projected the individual's thoughts and emotions into the texts and scripts and promoted the literary level of the Nanxi directly and vigorously. As a result, the systematic evolution prompted literary “Guanmu" and "differentiation of roles". The "Being affected by Kunqu" improves singing in Kunshan Shuimo Tune. It realized in the theory of temperament and singing and urged five changes to happen in the Nanxi system: the maturity of the tunes, the stereotyping of conjoined sets, the official rhyme of the Nanxi and the singing according to three syllables. In addition, the "opening" and "passage" of the script system were midway of finalizing in the publications after Wanliye years. To sum up, the "Chuanqi" by definition of "Tizhi Juzhong" is a mixture of Nanxi and Beiju, transformed and metamorphosed from the Nanxi as well as QuPai of the Beiqu. The mixture system varies from the counterparts of Song, Yuan and Ming dynasties. Therefore, in terms of academic significance, "Nanxi" and "Chuanqi" are indeed two different kinds of "Tizhi Juzhong"

南戲

北曲化

文士化

崑曲化

Nanxi

Being affected by Beiqu

BBeing affected by Wenshi

Being affected by Kunqu

Targeting educator resilience : an intervention program for Free State primary school educators affected by the HIV/AIDS pandemic / Moeketsi, Ntsubise Violet

Moeketsi, Ntsubise Violet

January 2010

The aim of this study was to explore how effectively educators in primary schools in the Thabo Mofutsanyana district (rural QwaQwa area, Free State province) affected by the HIV/AIDS pandemic can be supported to cope more resiliently with the pandemic's challenges, using the Resilient Educators programme (REds). REds has been piloted with urban educators previously, but not with rural educators. In order for me to achieve this aim, I used mixed methods to gather data: qualitative and quantitative data were gathered in the pre- and post-tests (before and after the implementation of REds) to comment on participant empowerment. I interpreted the data to comment on whether and how the REds programme supported educators affected by HIV/AIDS. Previous Reds piloting was done with urban educators. My piloting would explore if and how REds would enable rural educators. To actualise the study, I recruited ten participants (two males and eight females), but only the eight females completed the study. My participants were Sesotho-speaking educators frorn one of the primary schools in the rural area in the Thabo Mofutsanyana district (QwaQwa area) and all were affected by the pandemic. My findings indicated that REds was a meaningful intervention, but that it needs to be improved as regards the following: • Facilitators should take note of the strengths that participants have relating to HIV/AIDS. • Future REds should encourage positive interpersonal relationships. • The entire staff and different stakeholders in the community should be involved in future REds participation. • REds should be an ongoing intervention strategy for supporting infected educators and those otherwise affected by the pandemic. / M.Ed., North-West University, Vaal Triangle Campus, 2010

Intervention programmes

Affected educators and learners

Resilience

HIV/AIDS

Cope