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Some mineralogical, physical and chemical properties of volcanically affected soils under irrigated sugarcane in Tanzania.Taylor, Terri Storm. January 2013 (has links)
TPC is a 16 000 hectare estate located in Moshi, Tanzania and is currently planted under 8 800
hectares of sugarcane and produces over 60 000 tons of sugar per annum. The influence of
volcanic parent material and volcanic ash over TPC, together with the alluvial nature of many of
the soils, has imparted a unique combination of soil mineralogical, physical and chemical
properties. Furthermore, irrigation with poor quality water has led to sodicity problems on the
estate. Understanding the mineralogy and sodicity effects on soil hydraulic properties across the
estate can lead to better irrigation management where it is important to prevent the build-up of
salts due to over-irrigation.
In response to this need, a study was carried out with the aim of characterising the mineralogical,
physical and chemical properties in the five management areas of the estate (North, East, West,
South and Kahe), in order to determine the relationships between various measured parameters.
A total of 70 fields across TPC, as well as four sites outside the estate and two ash layers, were
chosen for sampling. Undisturbed soil cores and bulk samples were collected from the A and B
horizons from 45 of these fields and the four sites outside. Selected fields were sampled at more
than one site to assess field variability, and where cane growth was patchy selected fields were
sampled in a patch of poorly growing cane and an adjacent patch of better cane growth. Bulk soil
samples were collected from the remaining fields and the two ash layers.
Double ring infiltration measurements were carried out on 25 of the selected fields. X-ray
diffraction, transmission electron microscopy and aluminium, iron and silica extractions were
carried out to determine the mineralogy. Physical and chemical measurements included water
retentivity, saturated hydraulic conductivity, bulk density, particle size distribution, organic
carbon, pH (H2O), electrical conductivity, water soluble and exchangeable cations (Ca, Mg, K
and Na), cation exchange capacity and clay specific surface area.
The particle size distribution showed that the soils were mainly loams and sandy loams. Organic
carbon values were generally greater in the A horizon compared to the B horizon and varied
between 0.4 and 2.5 % in the topsoil and 0.3 and 2.1 % (with the exception of field 11 which had
an organic carbon of 4.0 %) in the subsoil. X-ray diffraction patterns of sand and silt fractions
were dominated by sanidine while clay patterns were weak and had high backgrounds and very
broad peaks, suggesting the presence of poorly ordered material in the clay fraction. The Al and
Fe extraction methods and electron micrographs indicated that this poorly ordered material was
allophane. However, the dominant clay mineral across the estate was halloysite, in both tubular
and spheroidal form, as well as very small (<< 0.5 μm) kaolinite particles. There was also
gibbsite in some of the samples analysed. The combination of allophane, halloysite, kaolinite and
gibbsite indicated that the primary volcanic minerals have weathered to various degrees across
the estate. This is reflected in the alluvial nature of the soils where less weathered material has
been periodically deposited onto older, more weathered material over some parts of the estate.
The south and west areas had a slightly higher Alo + ½ Feo ratio than the other areas in both the
topsoil (1.07 and 0.95, respectively) and the subsoil (1.16 and 1.06, respectively), a possible
consequence of less weathered alluvial material that was deposited in these areas. Although the
concentration of allophane was low (< 5 %), even in the south and west areas, its presence
greatly increased the clay specific surface area (up to 145.94 m2 g-1) and consequently had a
significant influence on the soil physical and chemical properties.
Water retention across TPC was high, particularly at the lower matric potentials (between 0.13
and 0.45, and 0.09 and 0.24 m3 m-3 at -33 kPa and -1500 kPa, respectively). The high water
retention is a result of allophane which gives the soils a high adsorption capacity and a porosity
that is dominated by micro-pores. Generally, the south area had the highest water retention at the
various measured matric potentials which corresponds to the higher allophane content.
Variability in water retentivity across areas and within fields limited further interpretation and
correlation with the mineralogical results.
Infiltration rate was lowest in the south (60.85 mm hr-1) and highest in the Kahe area (171.20
mm hr-1). The main factor influencing the final infiltration rate was the concentration of sodium
in the soil, with higher concentrations causing soil dispersion and blockage of soil pores. Clay
dispersion has led to the development of calcareous surface crusts and reduced porosity, thus
reducing the infiltration rate.
Sodium concentration in the soil is likely to have had a dominating effect over the mineralogical
composition of the soil. Poor cane growth in the south and west areas corresponded to higher pH
(up to 10.32), electrical conductivity (up to 614 mS m-1), sodium absorption ratio (up to 20.63)
and water soluble and exchangeable sodium (up to 53.20 mmolc l-1 and 14.87 cmolc kg-1 soil,
respectively) in these areas. The soils are thus more dispersive and the combination of sodicity
and allophane has resulted in “fluffy” soils with small particles clogging soil pores and thus
surface crusts have formed easily.
The combined effect of mineralogy and sodicity in the south is further complicated by the
presence of perched water tables. High adsorption capacities and the dominance of micro-pores
allow the occurrence of significant capillary rise which brings salts to the soil surface, further
exacerbating the sodicity problem. Therefore, over-irrigation should be avoided where soils are
prone to sodicity from a combination of irrigation with poor quality water, perched water tables
and strong capillary rise action. Fields which are currently experiencing the negative effects of
high sodicity, require irrigation with good quality water and adequate sub-surface drainage to
ensure the leaching of salts.
Further studies with specific focus on the south and west areas would be beneficial in accounting
for the variability and in drawing correlations between the mineralogy and sodium content of the
soils with the other measured properties. Fields which are prone to increased sodicity through
over-irrigation with poor quality water, have strong capillary rise from perched water tables and
which require remediation through sub-surface drains can thus be distinguished and the factors
influencing sugarcane growth can be more clearly understood. Growth depends on the
combination of these soil’s unique mineralogy and sodium content and the influence they have
on the infiltration rate, adsorption capacity, micro-porosity and capillary rise from the water
table. For future work, water movement modelling to predict saturated and unsaturated flow, as
well as in situ measures of unsaturated flow, will lead to further understanding of the soil
hydraulic properties and aid in improved irrigation management. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2013.
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Die effek van verskillende oppervlakbewerkingspraktyke op die wortelverspreiding van wingerdBrink, Daan 03 1900 (has links)
Thesis (MScAgric (Soil Science))--University of Stellenbosch, 2007. / This study forms part of an ARC Nietvoorbij research project on the long-term effect of
different groundcover management practices in vineyards. This study concentrated on the
root distribution of the vines after different groundcover practices were used for one
decade.
The vineyard on the research farm of the Agricultural Research Council at Robertson,
South Africa, was divided into 56 equally distributed trail blocks, 14 treatments with four
replicas each. For the study Chardonnay cultivar on 99 Richter rootstock was used. This
study concentrated on only eight treatments. The eight different cover crop practices
consisted of the mechanical treatment, chemical treatment, straw mulch treatment,
permanent cover crop treatment and four annual cover crop treatments. The annual cover
crop treatments consisted of triticale cover crop that was sprayed with an herbicide before
bloom, a triticale cover crop that was left to die naturally, a grazing vetch cover crop that
was sprayed with an herbicide before bloom and a grazing vetch cover crop that was left
to die naturally. The vineyard was established in November 1992 while the different
treatments started in April 1993. Root studies were conducted during the 2002/2003
season.
In this study the auger method was used to determine root density (mm/cm³). The root
density was correlated with data from the penetrometer studies, yield and shoot mass
collected during the same season.
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An investigation into the influence of soil pattern on preferential flow and groundwater recharge in fractured bedrock and cover sand aquifersStander, McLachlan Du Toit 12 1900 (has links)
Thesis (MScAgric)--Stellenbosch University, 2011. / ENGLISH ABSTRACT: Increased pressure on groundwater sources due to increased population size and threats of climate change is driving research to better understand the process of aquifer recharge. Soil pattern is of interest as it serves to partition rainwater into different flowpaths destined for surface runoff, evapotranspiration and deep percolation. The challenges inherent to studying these flowpaths are almost universal as uncertainties concerning spatial and temporal heterogeneity in catchments make the upscaling of models complex.
This research addresses these challenges as it aims to improve the catchment scale hydrological models of two aquifer systems: One a fractured bedrock system at the Kogelberg Nature Reserve, Kleinmond, and the other a cover sand system in Riverlands Nature Reserve, Malmesbury. This study focussed on strengthening the link between what is known about a given soil form and the hydrological assumptions that can be drawn from that classification, and formulating the results so that they may ultimately be used to calibrate the recharge prediction models for the respective catchments.
The research was done in two parts: The first phase was to conduct soil surveys in both reserves during which soils were classified according to South African Soil Classification. Samples were collected at representative observation points which provided textural data for use in pedotransfer functions (PTFs). These PTFs were used to estimate plant available water (PAW) and hydraulic conductivity (K) for the observed profiles. Infiltration experiments were subsequently done to investigate the infiltration patterns of distinctly different soil forms at two sites from each reserve. The experiments included double ring and mini disc infiltration, volumetric water content determination and flow path visualisation using a staining dye.
A statistical comparison between the hydrological properties (K and PAW) of the different soil forms suggest that hydraulic properties differed between the deep sandy soil forms (Fernwood, Pinegrove and Witfontein in Kogelberg and Witfontein, Concordia and Lamotte in Riverlands) and the shallow rocky soil forms (Cartref and Glenrosa in Kogelberg). Thus grouping of hydrological similar units (HSUs) could be done on the basis of the soil forms present within the given catchments.
The infiltration study showed that shallow, rocky soils that grade into bedrock would have infiltration rates far greater than those estimated using PTFs in Kogelberg. This is due to the prevalence of continuous preferential flow (PF) of water between coarse fragments in these profiles. Recharge estimates would thus be inaccurate in such soils and calibration using locally derived data is recommended.
On the contrary, PTFs produced accurate infiltration estimates relative to measured infiltration rates in deep sandy soils in Kogelberg and Riverlands. The Lamotte soil form is an example of such a soil form. It should however be noted that an increase in PF in these soils had subsequently higher K values than estimated, thus illustrating the link between PF and accelerated infiltration rates.
These results confirm that using soil survey information, in the form of a soil map, and calibrated hydrological properties, one can delineate HSUs that encompass a large degree of heterogeneity in a given catchment. / AFRIKAANSE OPSOMMING: Verhoogde druk op grondwaterhulpbronne weens die groeiende bevolking en klimaatsverandering dryf tans navorsing om akwifeer hervulling beter te verstaan. Die grondlaag is van belang sienend dat dit reënwater verdeel in oppervlak afloop, evapotranspirasie en diep dreinering. Die uitdagings in hidrologiese navorsing is universeel as gevolg van onsekerhede oor ruimtelike en tydelike variasie wat lei tot komplekse grondwatermodelle.
Diè navorsing mik om die tekortkominge in akwifeer hervulling aan te vul deur groundwatermodelle van twee akwifeersisteme te verbeter: Die een is 'n gebroke rots sisteem in die Kogelberg Natuur Reservaat, Kleinmond, en die ander is 'n sand-bedekde sisteem in Riverlands Natuur Reservaat, Malmesbury. Die navorsing streef om die verhouding tussen 'n spesifieke grondvorm en sy hidroliese vloeipaaie te bestudeer en om die gevolgtrekkings so te formuleer dat dit kan gebruik word om die onderskeie grondwatermodelle te kalibreer.
Die eerste fase van die navorsing was om 'n grondopname van die onderskeie reservate te doen waartydens die gronde geklassifiseer was volgens die Suid Afrikaanse Grondklassifikasie Sisteem. Grondmonsters is by verteenwoordigende observasiepunte geneem en geanaliseer om tekstuurdata vir pedo-oordraagbare-funksies (PTFs) te kry. Die PTFs was gebruik om plant beskikbare water (PBW) en hidrouliese geleiding (K) te voorspel vir die verskeie observasiepunte. Infiltrasie eksperimente was daarna gedoen om die infiltrasie patroon van twee verskillende grondvorms van elke reservaat te bestudeer. Die eksperimente sluit dubbel- en minidisk-infiltrasie, volumetriese waterinhoud bepaling en vloeipad visualisering met die gebruik van 'n kleurstof in.
Die statistiese vergelyking van die hidrouliese eienskappe (K en PBW) en grondvorm dui aan dat die hidrouliese eienskappe verskil tussen die diep, grondvorms met 'n oorwegende sand tekstuur (Fernwood, Pinegrove en Witfontein in Kogelberg en Witfontein, Concordia en Lamotte in Riverlands) en die vlakker, klipperige grondvorms (Cartref en Glenrosa in Kogelberg). Groepering van hidrologies soortgelyke eenhede (HSE's) kan dus op die basis van die teenwoordige grondvorms in 'n opvangsgebied gedoen word.
Die infiltrasie studie het bewys dat vlak, klipperige gronde wat tot die rotsbodem gradueer 'n baie hoër infiltratsie tempo sal hê as die PTF voorspelde waardes. Dit is as gevolg van die voorkoms van aaneenlopende voorkeurvloei (VV) van water tussen die growwe materiaal in die profiele, veral die gebroke rots ondergorond. Voorspellings van akwifeer hervulling sal dus onakkuraat wees en kalibrasie met plaaslike data word dus aanbeveel.
In teendeel met die begenoemde, het die PTFs akkurate voorspellings gemaak relatief tot die gemete infiltrasie tempo's in die diep sanderige grondvorms in Kogelberg en Riverlands. Dit was duidelik met metings dat 'n toename in aaneenlopende VV hoër gemete K waardes getoon as die voorspelde waardes. Die verband tussen VV en verhoogde infiltrasie tempo word dus hiermee geillustreer.
Die resultate bevestig dus dat grondopname data, in die vorm van 'n grondkaart en gekalibreerde hidrouliese eienskappe gebruik kan word om hidrologies soortgelyke eenhede uiteen te sit wat die meerderheid van die variasie in 'n gegewe opvangsgebied insluit. Die HSE's kan gebruik word om grondwatermodelle meer akkuraat te laat funksioneer en dus beter voorspellings te genereer.
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An evaluation of the effectiveness of coal ash as an amendment for acid soilsMbakwe, Ikenna 12 1900 (has links)
Thesis (MScAgric (Soil Science))--Stellenbosch University, 2005. / Soil acidity is one of the greatest limitations to crop production in most soils of the
world. The increasing high costs of conventional liming materials have made it
necessary to explore the possibilities of using cheaper substitutes. In South Africa, 16
million hectares of land are naturally acid while on the other hand, the country’s coalfired
power plants generate 28 million tons of mostly alkaline coal ash per year,
disposal of which is increasingly becoming difficult. The use of coal ash as an
agricultural soil amendment while solving the liming needs of local farmers, may also
present a safe and more economical disposal option. This study was carried out to
evaluate the effectiveness of coal ash as an agricultural liming material. A greenhouse
experiment was conducted using maize as test crop. A field experiment was also
established on Beestepan Farm in Middelburg, Mpumalanga Province using dry beans
as test crop for the first season. In both experiments, fresh unweathered coal ash from
Duvha power station (CCE 10%), dolomitic lime (CCE 77%) and calmasil (calcium
silicate slag, CCE 99%) were applied to acidic sandy loam soils in the presence or
absence of gypsum. Both calmasil and dolomitic lime were applied at equivalent rates
of 0, 1, 2, and 4 tons/ha, and rates of 0, 7, 14 and 28 tons/ha were used for ash.
Gypsum was applied at a rate of 4 tons/ha. All treatments were applied in three
replications. Results showed that liming increased soil pH, improved soil nutrient
status and plant uptake of base cations, and enhanced yield. In the greenhouse, coal
ash decreased exchangeable acidity from 13.0 mmolc/kg to 6.67 mmolc/kg, increased
Ca levels from 200 mg/kg to 379 mg/kg, and increased Mg levels from 25.9 mg/kg to
42.0 mg/kg. Nitrate levels were also raised from 4.4 mg/kg to 14.8 mg/kg
hypothetically as a result of the increase in the activity of nitrifying bacteria following
a decrease in soil acidity after ash application. Maize yield in the greenhouse was not
significantly affected by ash or by other liming materials, and the sufficient watering
and consequent elimination of aluminium-induced drought stress is put forward as
having masked crop responses to acidity. In the field, coal ash reduced exchangeable
acidity from 10.0 mmolc/kg to 5.88 mmolc/kg, increased Ca levels from 71 mg/kg to
132 mg/kg, and increased Mg levels from 7.3 mg/kg to 17 mg/kg. The increase in
bean yield from 958 kg/ha to 1724 kg/ha by ash was similar to that realized by
dolomitic lime and calmasil. Gypsum had little effect on soil acidity, but it
substantially improved soil Ca and sulfate levels, and enhanced bean yield in the field experiment. The study demonstrated that coal ash could be effective as a liming
material, and underscores the need for a cost-benefit assessment of ash use
necessitated by the relatively higher rates of ash required to obtain significant soil and
plant responses.
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Determination of the lime requirement of sandy, organic-rich, and structured, high Mg:Ca ratio soils by the Eksteen methodSmuts, Michiel Nicolaas 03 1900 (has links)
Thesis (MScAgric)--Stellenbosch University, 2001. / ENGLISH ABSTRACT: The Eksteen method of lime requirement determination, based on the ratio of Ca+Mg:H (R-value), is widely used in the Western Cape and has proven to be extremely accurate for most soils. However, the Eksteen method is known to give erroneous predictions of lime requirement for certain soil groups. These include sandy soils (notably pale coloured sandy soils), organic-rich topsoils and strongly structured, Mg-rich subsoils. The objective of this study was to examine the nature of the Eksteen RpH relationship for these problem soils, and to develop appropriate modifications to the Eksteen method, where possible. A population of both normal and problem soils was selected and analysed, the RpH relationships of the soils were determined, and various relationships were examined. The principal findings with regard to the nature of the Eksteen RpH relationship were as follows: 1. The lime requirements of pale coloured sandy soils can be most accurately determined on an equivalent basis relative to the total extractable acidity, after the total extractable acidity has been corrected for residual lime. 2. The previously observed and acknowledged inaccuracy of the Eksteen method on organic-rich soils stems from the pH-dependant acidity component of the organic matter. The accuracy with which the lime requirement of these soils is predicted by the Eksteen method can be greatly improved by the application of an organic matter correction factor (OMCF) to the total extractable acidity, which is the parameter on which the lime requirement is then based. 3. In structured, Mg-rich subsoils the pH-neutralising capacity of Mg is considerably lower than that of Ca, a factor which is not taken into account by the Eksteen method. The Eksteen method can nevertheless be corrected to overcome this discrepancy. The high levels of Mg in the structured, Mg-rich subsoils cannot be attributed to minerals in these subsoils containing brucite interlayers. 4. Toxic levels of AI may only be expected at soil pH values below approximately 4.7 as determined in 1M KC!. Soil organic matter and CEC have marked affects on AI extractability. In accordance with the objective that appropriate modifications to the Eksteen method should be developed if possible, theoretically-based correction factors were developed which will permit the use of the Eksteen method to be confidently extended to those soil groups (pale coloured sandy soils, organicrich topsoils and strongly structured, Mg-rich subsoils) for which it was formerly considered unreliable. / AFRIKAANSE OPSOMMING: Die Eksteen metode van kalkbehoeftebepaling, gebaseer op die verhouding van Ca+Mg:H (R-waarde),
word oor die algemeen wyd in die Wes-Kaap gebruik en is baie akkuraat vir meeste gronde bewys. Dit is
egter bekend dat die Eksteen metode verkeerde kalkbehoeftes vir sekere grondgroepe voorspel. Hierdie
sluit sanderige grande (veral lig gekleurde sandgronde), organiesryke bogrande en sterk gestruktuurde,
Mg-ryke ondergronde in. Die doel van hierdie studie was om die aard van die Eksteen R:pH verwantskap
vir hierdie probleemgronde te bepaal, waar moontlik.
'n Populasie van beide normaal en probleemgrande is geselekteer en geanaliseer, die R:pH verwantskap
van die grande is bepaal en verskeie verwantskappe is ondersoek. Die hoof bevindinge ten opsigte van
die aard van die Eksteen R:pH verwantskap was as volg:
1. Die kalkbehoefte van lig gekleurde sandgronde kan akkuraat bepaal word op 'n ekwivalente
basis, relatief tot die totale ekstraheerbare suurheid, nadat die totale ekstraheerbare suurheid gekorrigeer
is vir residuele kalk.
2. Die voorheen bekende onakkuraatheid van die Eksteen metode op organiesryke gronde het sy
oorsprong by die pH-afhanklike suurheid komponent van organiese material. Die akkuraatheid waarmee
die kalkbehoefte van hierdie grande met behulp van die Eksteen metode voorspel kan word, kan
noemenswaardig verbeter word deur die totale ekstraheerbare suurheid te korrigeer met behulp van 'n
organiese materiaal korreksie faktor (OMKF). Die aangepaste totale ekstraheerbare suurheid is dan die
parameter waarap die kallkbehoefte gebaseer word.
3. In gestruktuurde, Mg-ryke ondergrande is die pH-neutraliseringsvermoe van Mg aansienlik laer
as die van Ca, 'n faktor wat seide in berekening gebring word by die Eksteen metode. Die Eksteen
metode kan tog gekorrigeer word om hierdie tekortkoming te oorkom. Die hoe vlakke van Mg in
gestruktuurde, Mg-ryke ondergrande kan nie aan die teenwoordigheid van minerale in die ondergrond,
wat brusiet tussenlae bevat, toegeskryf word nie. 4. Toksiese AI vlakke sal alleenlik by grond pH waardes laer as ongeveer 4.7, soos bepaal in 1M KCI, verwag word. Grand organiese materiaal en KUK het 'n noemenswaardige effek op ekstraheerbare
AI. In ooreenstemming met die doelwitte om toepaslike wysigings aan die Eksteen metode aan te bring, is
teoreties gebaseerde korreksiefaktore ontwikkel, wat die gebruik van die Eksteen metode verder
verbreed om daardie grondgraepe (lig gekleurde sanderige grande, organies-ryke bogrande en sterk
gestruktuurde, Mg-ryke ondergrande) in te sluit waarvoor dit vantevore as onbetraubaar beskou is.
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Attenuation of ionic pollutants in selected South African soilsMwepu, Mireille K. M. 03 1900 (has links)
Thesis (MScAgric (Soil Science))--University of Stellenbosch, 2007. / Two–thirds of South Africa, including more than 280 towns and settlements are
largely dependent on groundwater for their drinking water supply and development.
However, groundwater resources in South Africa are limited both in terms of quantity
and quality, especially in the semi–arid parts of the country (Sililo et al., 2001, p. i).
Therefore, the importance of protecting groundwater resources from pollution has
been recognized.
The first objective of this research was to investigate the attenuation capacity of a
selection of soil horizons and materials representing major types of diagnostic
horizons and materials in the South African soil classification in order to validate their
chemical attenuation ratings as provisionally specified by Sililo et al. (2001, p. 4.6).
The second objective was to assess the pollutant attenuation capacity of South
African soil horizons and materials as well as describe the diagnostic value of key
chemical properties of soils for conveying information on their contaminant
transport/attenuation potential. The third objective was to investigate whether it is
possible to apply acid/base priming using H2SO4 and Ca(OH)2 to a bulk quantity of
soil in order to reduce the mobility of contaminants.
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Soil fertility constraints to small-scale agriculture in North-west ZambiaSymons, Julia 03 1900 (has links)
Thesis (MScAgric (Soil Science))--Stellenbosch University, 2008. / The soils of north-west Zambia are largely unexplored and are regarded by local residents as problematic in providing sufficient nutrients for the staple crop of maize in the area. The area is semi-tropical, with an average rainfall of 1300mm annum-1 falling predominantly in the summer. The undulating landscape is dominated by miombo woodland interspersed with savanna grassland. Little work has been done on these soils and further information is required to understand their origin and their fertility status. The main objectives of this thesis were: 1) to classify and sample soils from a large number of small-scale agricultural lands, 2) to develop a better understanding of these soils chemical characteristics, 3) to determine the effect of vegetation clearance on soil fertility by sampling adjacent uncultivated land, and 4) to test locally derived rock dust as a soil ameliorant in pot trial.
Soils from 100 agricultural and adjacent bush/forest sites were classified and analysed to determine their fertility status. They were tentatively classified according to the WRB system and are dominated by Arenosols, Acrisols and Ferralsols with infrequent occurrences of Lixisols. Most of these soils have a sandy texture. The clay fraction comprises of gibbsite, kaolinite and hydroxyl-Al interlayered vermiculite (HIV), with a few soils also having some mica present. The soils are consistently acidic with 42% of soils sampled having a pH (KCl) <4.3. Furthermore, the subsoils proved to be equally if not more acidic than the topsoils. Low nutrient levels are invariably associated with the soil acidity, with 84% of soils having <15mg/kg P, 59% of soils <50 mg/kg K, 80% soils <300 mg/kg Ca, and 44% soils <80 mg/kg Mg.
Comparisons between cultivated and bushland soils showed no consistent changes to the soil acidity and fertility. This is contrary to research that was reviewed but is likely to have been affected by the spatial variability of these soils arising from the termite dominated landscape and the soils having been derived from different parent materials.
Amelioration of these soils is required in order to increase yields. It is thought that lime, used with an N, P, K, Zn and B fertilizer, will best remedy the deficiencies found in these soils. Using these nutrients could raise the yields of <1t.ha-1 to in excess of 5 t.ha-1. Local soil ameliorants of crushed rock, ash, compost, green manure and termite mounds were also considered with pulverised granite being tested through factorial pot trials to determine its usefulness as a source of K and alkalinity. It raised both soil pH and K levels but is of limited value as these rises were not significant enough to affect yield. It is recommended that future research should: 1) strategically sample across the district, classify soils and determine their fertility status; 2) compile a soil yield potential map and 3) undertake field trials to test the quantities and effectiveness of fertilizers alongside local soil ameliorants.
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Experiments to modify grape juice potassium content and wine quality on granite derived soils near PaardenbergAgenbach, G. 12 1900 (has links)
Thesis (MScAgric (Soil Science))--University of Stellenbosch, 2006. / High potassium content in grape juice and wine are associated with low
quality red wine in warm wine producing countries. In an attempt to reduce
the potassium content of juice, must and wine, a field experiment was laid out
on the farms Meerlus and Kersfontein in the Paardeberg area near Wellington
in 1998 on granite derived soils to investigate the effect of canopy
management and fertiliser applications on berry K accumulation and wine
quality.
Four fertiliser applications, three canopy treatments and a MgSO4 foliar spray
were studied. The three fertiliser treatments being: none (control), CaSO4,
Ca(OH)2, and MgSO4 applications. The canopy treatments were: thin to two
shoots per bearer, tip, vertical shoot positioning (VSP) and the removal of
yellow leaves and lateral shoots (canopy 1), thin to three shoots per bearer,
top after véraison and VSP (canopy 2) and VSP with top after véraison
(canopy 3/control). Magnesium sulfate sprays were applied at véraison for
two seasons (1999/00 and 2000/01).
Seasonal effects produced the most significant differences in this experiment.
Canopy treatments did not affect juice K concentration at harvest. Canopy 1
and 2 produced significantly lower wine pH values at Kersfontein. Fertiliser
treatments had no effect on juice K concentration nor did it affect wine
quality. Magnesium sulphate foliar sprays did not affect juice K concentration at harvest but significantly lowered juice and wine pH, improved wine colour
density and total phenolic content.
It appears for this experiment that soil K content before véraison, shoot
growth at and after véraison and water stress after véraison were the main
factors determining juice K concentration at harvest.
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Efficiency of irrigation practices for table grapes in the Hex River ValleyEustice, Tarryn 03 1900 (has links)
Thesis (MScAgric (Soil Science))--University of Stellenbosch, 2008. / In order to produce table grapes of export quality economically, irrigation must be practised
conservatively without adversely affecting the crop. To use water as conservatively as possible
effective irrigation scheduling practices must be applied. The highest water use efficiency (WUE) is
only possible if irrigation scheduling practices lower the amount of water applied, while at the same
time they increase the yield.
The first aim of this project is to investigate whether current irrigation practices make efficient use of
water by comparing irrigation requirements determined using theoretical models with actual irrigation
applied for two seasons (2005/6 and 2006/7). Secondly, the effect of cumulative irrigation on the
chemical status of soil in 16 blocks was investigated to establish whether nutrient leaching as a result of
differential water use may have had an influence on yield.
Six blocks (three dripper and three microsprinkler blocks) were selected and irrigation requirements
were determined using evaporation pan calculations, SAPWAT and Vinet and compared with actual
irrigation applications. Furthermore, a yield-irrigation index (kg/m3) and an income-irrigation index
(R/m3) were determined for each of the six blocks and compared.
To investigate the effect of cumulative water use on the chemical status of the soils of 16 blocks, soil
samples were taken and analysed for pH (1M KCl), EC (1:5); soluble cations and anions (Ca, Mg, Na,
K, SO4, NO3, and Cl), ammonium acetate extractable cations (Ca, Mg, Na and K) and micro elements
(Zn, Fe, Mn, Cu and B).
The irrigation requirements predicted by the different irrigation scheduling methods are variable. For
Vinet, the irrigation requirement determined for microsprinkler irrigation is much higher than that
determined using the evaporation pan or SAPWAT approaches. Comparison of the irrigation applied
to each of these blocks does not clarify whether any irrigation scheduling takes place. Results showed
a relationship between the yield-irrigation index and income-irrigation index. It has not however been
verified whether this relationship is statistically significant.
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A laboratory and glasshouse investigation on the effect of liming with fly ash and processed stainless steel slag on two contrasting South African soils.Ndoro, Esina Tambudzayi. January 2008 (has links)
Soil acidity is a major land degradation problem that limits crop production globally.
The high cost of traditional liming materials (calcitic limestone, dolomite etc.) and the
vast areas of land that require liming have led to the exploratory utilisation of alkaline
industrial by- products such as fly ash and stainless steel slag. The liming potential
and effects of liming with fly ash (from the Duvha power station) and processed
stainless steel slag (Calmasil) on two acid soils were investigated in this study.
The quality of fly ash and Calmasil as liming materials and their potential impacts on
the soil quality and plant growth were investigated. The effects of liming with these
materials on soil pH, EC, extractable Al, Mn, base cations and trace elements were
investigated in an incubation experiment. A glasshouse trial was conducted to assess
the effects of these materials on the growth of an acid intolerant crop, perennial rye
grass. The incubation and glasshouse study were of a factorial design with two acid
soils (the Avalon and Inanda soils), three materials (fly ash, Calmasil and lime); and
five application rates of 0, 50, 100, 200 and 400% of the recommended optimum
liming rate (OLR) for the growth of perennial rye grass.
Characterization of fly ash showed that the major elements (>5%) present (Si > Al > Fe) are not comparable to lime (Ca > Si > Mg) and that it has a low liming potential
(calcium carbonate equivalence (CCE) of 9.6%) in comparison to lime. The chemical
composition of Calmasil is comparable to lime with Ca > Si > Mg as the major
elements and it has a very high liming potential (CCE = 97%). The incubation
experiment showed that adding fly ash and Calmasil increased the pH of both soils.
However, at the optimum liming rate (100% OLR), only the treatment with Calmasil
in the Avalon soil attained pH levels within the desired pH range. Extractable Al and
Mn decreased with addition of fly ash and Calmasil to levels comparable to lime in
the incubated soils. Addition of fly ash and Calmasil also increased the extractable
base cations of both soils. The yield-response of perennial rye grass to treatments in
both soils was in the following order: fly ash > Calmasil > lime. Application of fly ash
at > 200% OLR in the Avalon soil caused injury of ryegrass. Application of fly ash
and Calmasil at lower rates has great agronomic potential in ameliorating soil acidity. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2008.
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