Kola nut production in Ghana (Gold Coast and Asante), 1865-1920

Abaka, Edmund.

January 1998

Thesis (Ph. D.)--York University, 1998. Graduate Programme in History. / Typescript. Includes bibliographical references (leaves 284-329). Also available on the Internet. MODE OF ACCESS via web browser by entering the following URL: http://wwwlib.umi.com/cr/yorku/fullcit?pNQ39250.

Kola nut industry

Studies of the biotechnological potenital of an antimicrobial peptide from macadamia integrifolia /

Stephens, Camilla M.

January 2002

Thesis (Ph. D.)--University of Queensland, 2002. / Includes bibliographical references.

Peptide antibiotics. Macadamia nut.

On the olefinic nature of certain phenolic components of cashew nut shell liquid

Izzo, Patrick Thomas,

January 1948

Thesis--Columbia University. / Vita. Bibliography: p. [49]-50.

Phenols. Alkenes. Cashew nut.

Elemental distribution in selected edible nuts and the impact of soil quality on the chemical characteristics of macadamia (Macadamia integrifolia) nuts

January 2007

Environmental and nutritional imperatives make it necessary to carry out regular and reliable / Thesis (M.Sc.)-University of KwaZulu-Natal, Westville, 2007.

Macadamia nut--Analysis

Macadamia nut--South Africa.

Theses--Chemistry.

Leadership in agriculture : innovation in Macadamia nut farms in Kwazulu Natal and Mpumalunga

Carlton-Shields, Robert Hugh

04 September 2012

The global macadamia nut industry is fast developing at present. South Africa is currently the third largest global producer. There are many contributing factors influencing the increased demand for macadamia nuts. The most important factor would probably be the nutritional value provided by the nuts. It is important for the macadamia nut industry to demonstrate strong leadership in order to ensure that the growers and the industry develop ahead of the markets and retain a competitive edge as the industry develops. In agricultural terms the investment into a macadamia farm is significant.Developing a farm with a long gestation period and high capital input cost requires a significant commitment from a grower. The risk associated with error is potentially very high and may have serious financial repercussions to the growers and their long term sustainability. Strong leadership and innovation practices within the industry should be a continuous improvement process in order to challenge and enhance current practices within the industryand to mitigate risks associated with the industry as a whole. The purpose of this research was to understand the perceptions of growers and the macadamia nut industry regarding the role of leadership and innovative behaviour to support increased growth and sustainability of growers and the industry alike. / Graduate School of Business Leadership / (M.B.A.)

Agriculture

Leadership

Macadamia nut industry

Seed dormancy and germination in Corylus avellana L

Rendon, G. A.

January 1983

No description available.

580

Hazel; Cob-nut; Seeds

Leadership in agriculture : innovation in Macadamia nut farms in Kwazulu Natal and Mpumalunga

Carlton-Shields, Robert Hugh

04 September 2012

The global macadamia nut industry is fast developing at present. South Africa is currently the third largest global producer. There are many contributing factors influencing the increased demand for macadamia nuts. The most important factor would probably be the nutritional value provided by the nuts. It is important for the macadamia nut industry to demonstrate strong leadership in order to ensure that the growers and the industry develop ahead of the markets and retain a competitive edge as the industry develops. In agricultural terms the investment into a macadamia farm is significant.Developing a farm with a long gestation period and high capital input cost requires a significant commitment from a grower. The risk associated with error is potentially very high and may have serious financial repercussions to the growers and their long term sustainability. Strong leadership and innovation practices within the industry should be a continuous improvement process in order to challenge and enhance current practices within the industryand to mitigate risks associated with the industry as a whole. The purpose of this research was to understand the perceptions of growers and the macadamia nut industry regarding the role of leadership and innovative behaviour to support increased growth and sustainability of growers and the industry alike. / Graduate School of Business Leadership / (M.B.A.)

Agriculture

Leadership

Macadamia nut industry

Cultivar and E-Beam irradiation effects on phytochemical content and antioxidant properties of pecan kernels

Villarreal Lozoya, Jose Emilio

15 May 2009

Pecan kernels from six cultivars were analyzed for phenolic content and antioxidant properties. In addition, kernels from two cultivars were irradiated with 0, 1.5 and 3.0 kGy using E-Beam irradiation and stored in accelerated conditions (40 °C and 55% R.H.). Changes in phytochemical profile and antioxidant properties were monitored for 134 days. Cultivars differed greatly in their phytochemical content. Total extractable phenolic content (TP) ranged from 62 to 106 milligrams of chlorogenic acid equivalents per gram of defatted kernel. Antioxidant capacity (AC) measured by the DPPH free radical had a strong correlation with TP. Shells from each cultivar were 6, 4.5 and 18 times greater for TP, AC and condensed tannin content (CT). Gallic and ellagic acids, epicatechin and catechin were identified in hydrolyzed extracts of all cultivars. Prior to hydrolysis, no compounds were positively identified. Fatty acid profile of kernel oil had a strong inverse correlation between oleic and linoleic oil. Kernels from the same cultivar but different location differed in their fatty acid composition but had similar TP. Irradiation of â Kanzaâ and â Desirableâ kernels with 1.5 and 3.0 kGy had no detrimental effects on AC and TP by the end of experiments. Phenolic profile was similar for all treatments. Tocopherol content decreased with irradiation treatments, but no further degradation was observed throughout storage. Peroxide values increased slightly after 98 and 134 days of storage for â Desirableâ kernels, with slight differences between controls and irradiated samples. Color of kernels decreased in lightness and yellowness and increased in redness with no differences between irradiated samples and controls. For the first time the effect of pecan cultivar and E-Beam irradiation was assessed in phytochemical and antioxidant attributes of pecan kernels. Additionally, irradiation with E-Beam had no significant detrimental effects in phytochemical composition and only a slight increase in peroxide value, indicating potential as pecan kernel sanitization.

nut

tannin

phenolic

fatty acid

The nutritive value of macadamia oil cake meal and wood ash as alternative feed ingredients for chickens in rural areas

Phosa, Mashilo Alpheus.

January 2010

Thesis (M.Inst.Agrar. (Animal Production (Animal and Wildlife Sciences)) -- University of Pretoria, 2009. / Abstract in English. Includes bibliographical references.

Macadamia nut Wood ash Chickens

Some ecophysiological aspects of cashew (Anacardium occidentale L) with emphasis on possible flower manipulation in Maputaland.

Roe, Denis John.

January 1994

There has been interest in developing a cashew industry in Maputaland, the far north-eastern corner of Natal/KwaZulu. Flowering and fruit development coincide with a rainy period, with accompanying serious flower diseases (Oidium anacardii and Colletotrichum gloeosporioides). Glasshouse studies were carried out at Pietermaritzburg, concurrently with field trials in Maputaland, in an attempt to manipulate flowering and growth of cashew trees. Two glasshouse trial were carried out. A factorial design with treatments 0, 3, 6 and 9 weeks of low temperatures (24°C day/9°C nights)(factor A) and 0, 3, 6 and 9 weeks of water deficit (Factor B) was used, with both factors in all combinations. During the second season the durations were increased to 0, 4, 8 and 12 weeks for both factors. No flowering occurred in this trial. Tree growth was not affected significantly by drought and/or cold duration. Temperature appeared to be the dominant factor at low temperatures, stomatal conductance and transpiration being suppressed by cold regardless of soil water potential. At more optimum temperatures for growth, stomatal conductance was dependent on soil water potential (r² = 0.756). Starch levels in the roots, dry matter production in the leaves, roots and stems, as well as leaf area were decreased significantly (P≤0.01) with increasing low temperature duration. Another glasshouse trial to test the effects of foliar urea at concentrations of 0, 1, 2, 4 and 8 g urea 100 l⁻¹, applied once, twice or thrice at fortnightly intervals was undertaken. The treatments were applied in late autumn/early winter of 1990 and 1991. Tree growth and flowering were monitored, and starch and leaf NH₃/NH₄⁺ analyses carried out. The highest urea concentration (8%) resulted in leaf scorch and abscission, extremely low stem diameter growth rates, and was too high for glasshouse trees. The starch contents of the 8% urea treatment were depleted significantly (P≤0.01) more than the other concentrations. The other urea treatments resulted in vigorous growth and high dry matter production. There were no significant effects of the number of sprays on cashew growth. Only seven trees flowered, and therefore no definite conclusions could be drawn regarding urea effects on flowering. Most hermaphrodite flowers (max. 76.8% hermaphrodite) opened soon after first anthesis of a panicle, and all terminal flowers of panicle branches were hermaphrodite. Flowers generally opened basipetally in a panicle, starting with hermaphrodite flowers and with progressively more male flowers. Urea sprays resulted in NH₃/NH₄⁺ build-up in the leaves, concentrations in flowering trees ranging from 100 to 700 μg g⁻¹ DM for approximately a month. A field trial at was carried out at Makatini Research Station to determine the effects of timing of a two month winter drought period on flowering and growth. An observational trial to determine the effects of girdling on growth and flowering was incorporated in the border rows of the irrigation trial. The trial tested five treatments (no irrigation during May and June, June and July, July and August, August and September, and a control treatment which received irrigation throughout Winter). Mean monthly temperatures were below 20°C, and mean minimum temperatures below 15°C for the 5 winter months during treatment application. There were no significant differences in tree growth, flowering, flushing, or yields between drought stressed treatments and control, indicating that, under the conditions at Makatini, autumn and winter temperature was the overriding factor controlling initial flower induction. Flowering occurred from early October (when mean temperatures exceeded 23 to 24°C) to late April (7 months - a prolonged flowering period), when mean monthly temperatures dropped below 23 to 24°C. Girdling of cashew trees in March and May, using girdle widths of 1, 5 and 10 mm was not successful in improving flowering and yields under the conditions of the trial. A field trial was carried out at Mosi Estate in Maputaland to test the following chemicals as tree and/or flower manipulators: foliar applied ethephon (50,100,200,500,2000 mg l⁻¹), KNO₃ (1 %, 2%, 4%), urea (1 %, 2%, 4%) and paciobutrazol (500, 1000, 2000 mg l⁻¹). A phenological model for cashew in Maputaland showed a dormant period during winter, followed by a generative flush, from which panicles and flowers were produced (peak November-January). The harvest period peaked in February and March. A strong post-harvest flush preceded the winter dormant period. Trunk starch levels were at their highest after the dormant winter period, and at their lowest following the harvest. Ethephon at high concentrations (500 and 2000 mg l⁻¹) resulted in excessive leaf drop, disturbed the root shoot balance and normal phenological patterns, and gave poor yields. The best ethephon concentrations were 100 to 200 mg l⁻¹. KNO₃had no significant effect on tree growth, flushing, flowering or yields when compared to control trees. Urea at 2% concentration gave a significant increase (P≤0.05) in flushing and simultaneous decrease in flowering. Paclobutrazol at 500 to 2000 mg l⁻¹ resulted in significantly lower growth rates, and early panicle production. The mean yields of all paclobutrazol treated treatments were higher than controls, despite a hail storm which damaged the flowers. From results of this trial, the use of these chemicals to improve yields and manipulate flowering may not be economically justified. The most promising chemical for further research was paclobutrazol. / Thesis (M.Sc.Agric.)-University of Natal, Pietermaritzburg, 1994.

Cashew nut.

Theses--Horticultural science.