THE RELATIONSHIP BETWEEN INSECTICIDE SUSCEPTIBILITY AND THE GUT MICROBIOME OF GERMAN COCKROACH (BLATTELLA GERMANICA L.)

Zachery M Wolfe (12425283)

25 April 2022

<p>  </p> <p>The objectives of this dissertation included comparing the whole gut bacterial profiles of insecticide resistant and susceptible <em>B. germanica</em> and determining how these profiles, as well as the structure and function of the gut microbiome, change in the presence of an antibiotic. Additional goals were to investigate how antibiotic treatment impacts the toxicity of the bait insecticides fipronil, abamectin and indoxacarb, and to determine how gut bacteria, and specifically the enzymes originating within gut bacteria, metabolize and convert ingested indoxacarb into its toxic metabolite DCJW. Findings show that pre-treatment with the antimicrobial compound kanamycin (KAN) led to reductions in resistance levels for fipronil and abamectin, but also increased basal toxicity levels in both resistant and susceptible strains tested. 16S bacterial sequence surveys revealed that resistant and susceptible cockroach strains were more similar before KAN treatment than after, with a stronger dysbiosis effect in the resistant strain. For the insecticide indoxacarb, regardless of strain, roaches treated with kanamycin-infused water in feeding bioassays were more susceptible compared to the control treatment, but in vial (surface contact) bioassays, only susceptible cockroaches experienced a significant shift in mortality. When the frass of indoxacarb-fed cockroaches was analyzed, fewer molecules of the hydrolytic metabolite DCJW were produced with the introduction of an antibiotic (KAN). This result was further corroborated by esterase activity assays of whole homogenized cockroach guts. All results considered, these findings provide novel evidence of microbe-mediated pro-insecticide activation in the cockroach gut. Overall, the results of this dissertation reveal previously unknown relationships between gut microbiota and their insect hosts. These microbiome relationships exposed important cockroach strain differences which may extend to the host population level. Furthermore, this research has connected a change in enzyme activity in the gut microbiome with indoxacarb, a very important marketplace pro-insecticide.</p>

Entomology

Insecticide toxicology

Microbial Ecology

Field investigations into the fate of fertilizer sulphur added to pasture-soil systems

Gregg, P. E. H.

January 1976

In order to understand, more fully, some of the factors affecting the S requirements of pastures, S³⁵-labelled gypsum fertilizer was applied to several field trials located on soils within the recent, yellow brown earth and high country yellow brown earth soil groups in Canterbury, New Zealand. Among the major processes studied were the incorporation of the S³⁵-labelled gypsum fertilizer into the soil organic matter, its movement in the soil and its uptake by pasture plants. The results obtained showed that on the same soil type, plant uptake of fertilizer S and its incorporation into the organic matter were greater under improved pastures. However, the movement of fertilizer S was relatively unaffected by the pastoral improvement. Rainfall conditions affected all three processes studied, particularly the downward movement of fertilizer S. Over the growing seasons of the first year almost all of the added fertilizer S remained within the upper 15 cm of the soil at a low rainfall trial. On a similar textured soil, receiving almost twice as much rainfall over a similar time period, fertilizer S was distributed evenly to a depth of 60 cm. Where the rainfall was similar, but soils differed in their water holding capacity, large differences in the downward movement of fertilizer S occurred. On a steepland yellow brown earth soil almost 70% of the applied fertilizer S was lost from the 0-45 cm soil depth two months after application. While on a recent soil, with a much higher water holding capacity, greater amounts of fertilizer S remained within the upper 45 cm over the same period.. Large differences in the downward movement of fertilizer S were shown by soils with contrasting retention capacities, but under similar rainfall conditions. On a yellow brown earth soil, with a medium S retention in the subsoil, fertilizer S was found not to have moved beyond 60 cm in the winter following the spring application. In contrast, fertilizer S penetrated beyond the 60 cm on a recent low S retentive soil. Under improved pastoral conditions, applying fertilizer S in late spring rather than early spring, to two different soils gave larger (almost twofold) residual effects the following year. Total recovery of the added fertilizer S in the soil-plant systems studied were generally greater than 80%. The pattern and rate of the downward movement of fertilizer S was little affected by fertilizer rates. Pasture recovery (%) of fertilizer S at the lower rate (22.5 kgS/ha) was slightly higher than that at the higher rate (45 kgS/ha). Fertilizer rates did not produce a consistent effect on the extent of fertilizer S incorporation into soil organic matter. The magnitude of the sulphur cycling pool was determined at each trial location by using the equilibrium specific activity of pasture. This pool was found to vary between trials and showed no relationship to their respective S response patterns. The rate of S cycling appeared to be more important. At some trials a strong correlation was found between the specific activity of the S in pasture and that for phosphate-extractable sulphate in particular soil depths. This relationship was used to assess indirectly, the likely soil zones from which plants extract S to meet their nutritional requirements. A new technique was developed to study, directly, the soil zone from which plants extract S to meet their-nutritional requirements. Carrier-free S³⁵, injected horizontally into various soil depths in a recent and a yellow brown earth soil, showed that both grasses and clovers recovered S³⁵ to a depth of 52 cm, in the spring. However, most of the S³⁵ uptake by plants was found to occur in the upper 30 cm (A horizon) in both soils. In the autumn, S³⁵ uptake experiments on these soils showed uptake to occur at 100 cm on the recent soil, and cease at 52 cm on the yellow brown earth soil. Growth cabinet experiments, using S³⁵-labelled pasture residue, recovered from the field plots, and added to various soils, showed that ryegrass recovery of labelled fertilizer S ranged from 6-16% and it varied according to soil type, degree of pastoral development, type and form of plant residue added. This extent of recovery represents only a small proportion (1%) of the fertilizer S recovered by pasture in the first year. The overall experimental results were considered in relation to both the S response patterns obtained from the present field trials and also those from other similar trials conducted in recent years in the Canterbury area. Some possible reasons for the variable S responses obtained were discussed and methods for improving the efficiency of fertilizer use, at farm level, were proposed.

sulphur

fertiliser

pasture

pasture recovery

gypsum fertiliser

LAYERED AGGLOMERATION OF UREA GRANULES

Yanjie Chen (5930582)

16 January 2020

<p>Urea has been widely used as a crop fertilizer to increase crop yield. The low nutrient use efficiency (NUE) of urea, however, is a challenge. Coated fertilizers are considered a solution not only for enhancing the NUE but also for alleviating soil and water pollution. In this paper, the physical properties of coated fertilizers were analyzed, including their particle size distribution, fracture force, thermal behavior, envelope density, and apparent density (regular fertilizer: pure urea and the Anderson 12-6-6; slow release fertilizer: Osmocote 14-14-14, the Anderson 18-6-12; controlled release fertilizer: Environmentally smart nitrogen (ESN), Florikan 14-14-14, Everris 17-3-6). The granules’ closed and open pore number, pore volume, and total porosity were analyzed using X-ray micro-tomography (XRCT). The results demonstrated that pure urea and Florikan have a similar median particle size, around 4 mm, while ESN and Osmocote have a similar median particle size of around 3 mm. Finally, Everris, the Andersons 18-6-12, and the Andersons 12-6-6, have a similar median particle size of roughly 2.5 mm. The fracture pressure of ESN (4.58±0.98 MPa) and the NPK combination fertilizers (Florikan: 9.40±1.46 MPa and Osmocote: 8.94±2.09 MPa) were higher than pure urea. The envelope and apparent density of pure urea (envelope: 1.22±0.02 kg/m³ and apparent: 1.27±0.01 kg/m³) and ESN (envelope: 1.26±0.03 kg/m³ and apparent: 1.27±0.00 kg/m³) are similar, while all NPK fertilizers have a significantly higher density (envelope: 1.68–1.87 kg/m³ and apparent: 1.83–2.09 kg/m³). ESN had higher internal pore space and a higher total pore volume than pure urea, while NPK combination fertilizer showed lesser pores and significantly smaller pore volumes. The physical properties were also significantly different when comparing urea and NPK compound fertilizers, mainly because of the differences in their nutrient coatings and manufacturing methods. The coating of the urea increases the granule strength but does not alter the thermal properties; however, the overall porosity of the granules is influenced by the coating. In this thesis core, different binders were used to alter the internal structure of the urea granule to control the dissolution behavior and to make it a slow-release fertilizer. The layered agglomeration technique was used to manufacture the granules. The core of the granule was made by granulating technical urea powder in a drum granulator, with corn starch as the binder. A second layer of urea was added to the core by drum granulation in order to obtain a nutrient release pattern that matches with the crop demand. Corn starch, PEG 4000, and corn starch hydrogel were used as binders for the second layer. The density, thermal properties, strength, and internal porosity were measured to compare with market urea and coated slow-release fertilizer granules. All the dissolution rates of the double layer granules were slower than for market urea. Among these granule types, the dissolution rate curve of the granule with starch hydrogel in the second layer better matched the crop demand curve than those of the other two types of granules. Moreover, the strength of the double layer granules with hydrogel was the greatest of the three double layer granules. So, overall, the double layer granule manufactured with corn starch in the core and starch hydrogel in the second layer performed the best. Although the pattern of dissolution of the double layer granule was similar to the crop nitrate demand curve, a soil-based study is needed to verify the nitrate release characteristics.<br></p><ul> </ul>

slow released urea fertilizers

double layer urea granule

Efffects of various fertiliser materials on growth, yield and nutritional quality of three tomato varieties

Mahlatji, Maphotle Baatseba

January 2019

Thesis (M.Sc. (Horticulture)) -- University of Limpopo, 2019 / Tomato (Solanum lycopersicum L.) is one of the most popular and widely consumed vegetable crops all over the world. They play a vital role in human diet and good sources of vitamins and minerals. However, low soil fertility is a major challenge to vegetable crops production for growers in Africa. Soils in the arid and semi-arid regions like South Africa have little nutrient and mineral contents, which adversely affect plant growth and quality. Therefore, the objectives of the study were to determine the effects of sole and combined applications of Effective Microorganisms enriched compost, broiler manure and inorganic (NPK) fertiliser applications, on growth and yield of three tomato varieties and to assess the influence of the applied fertiliser on nutritional composition of three tomato varieties. Field experiments were conducted at Horticultural skill centre, University of Limpopo (Mankweng), and at Mphebatho farm, Apel, Limpopo province, South Africa. The experiment was laid out in a 7 x 3 split-plot design. Recommended amount of organic and inorganic fertilisers was used. The treatments were: control (without fertiliser application), NPK (2:3:4(30) at a rate of 200 N ha-1, 260 P ha-1 and 257 K ha-1, applied as N from Urea, P from superphosphate and K from potassium chloride (KCl), mineralised broiler manure (10 000 kg ha-1), ½ NPK + ½ broiler manure rates, EM enriched compost (14 m3 ha-1), ½ EM compost + ½ NPK rates, and ½ EM compost + ½ broiler manure rates. Three tomato varieties (Floradade, Roma and Moneymaker) seedlings were transplanted using standard spacing of 30 x 60 cm. Chlorophyll contents of leaves, biomass production, plant height, fruit number, stem diameter and branch number were determined after six weeks of transplanting and fortnightly thereafter. The interactions between tomato varieties and fertiliser materials with regard to plant height were not significant (P ≤ 0.05) at both sites (Apel and Mankweng). Average plant height (63.75 cm) obtained in Moneymaker grown in EM compost treatment was significantly highest at Apel, for Floradade (42.25 cm) in broiler manure treatment while that of Roma variety (39.63 cm) was found in ½ EM compost + ½ NPK treatment at 8 WAT. Similar trend was also recorded at 10 WAT. For Mankweng the significantly (P ≤ 0.05) highest average plant height at 8 WAT (66.63 cm) was obtained in Moneymaker grown in ½ broiler manure + ½ NPK treatment for Floradade (45.63 cm) obtained in broiler manure treatment, and 44.50 cm recorded for Roma in broiler manure treatment. Similar trend was also followed at 10 WAT. At vi Apel, significantly highest average number of tomato fruits at 8, 10 and 12 WAT were recorded in treatment with ½ EM + ½ NPK while the least values were found in control. Whereas at Mankweng the variation in number of tomato fruits under different fertiliser treatments were not significant. Similar, non-significant interactions (V x F) for tomato shoot nutritional composition were found in tomato grown at both sites (Apel and Mankweng) in relation to fertiliser treatments. At Apel however, comparing the fertiliser treatments, tomato grown in soil treated with ½ broiler manure + ½ NPK had the significantly highest average (3.01 %) K content while the least value (2.65 %) was obtained in the control. Similarly, significantly highest mean (44.33 mg kg-1) Zn was found in crops grown in the same treatment, but the lowest significant value (36.50 mg kg-1) was obtained in ½ EM + ½ NPK treatment. For Mn and Fe contents in tomato significantly highest mean values (150.17 mg kg-1 and 2381 mg kg-1) for Mn and Fe respectively were found in sole broiler manure treatment while the least values 114.83 mg kg-1 and 1357.6 mg kg-1 for Mn and Fe respectively were found in ½ EM + ½ NPK and sole NPK treatments respectively. It may be concluded that in tomato production, combined application of organic and inorganic sources of nutrients can be more beneficial and can be adopted by smallholder farmers with limited resources. / DAFF Zero hunger

Broiler manure

Inorganic fertilisers

Tomatoes -- Breeding

Fertilizers -- Application

Compost

The use of different ecosystem components as indicators of ecosystem development during platinum mine tailings rehabilitation / Johanna Martina (Juanita) Rossouw

Rossouw, Johanna Martina

January 2005

Platinum mining activities contribute substantially to South Africa's economy since it exceeded gold as economical contributor in 2001. Mining activities contribute to large amounts of waste production in the form of tailings and rock waste, deposited in the surrounding environment of the mine premises. Mining companies are held responsible for damages caused to the surrounding environment. These companies are required to introduce the cost of ecological rehabilitation in their operation costs as well as compile an environmental management plan. Numerous attempts to rehabilitate mine waste have proven unsuccessful. New and improved rehabilitation techniques are required to facilitate in the rehabilitation of these mine spoils. Woodchip-vermicompost produced from platinum mining wastes (woodchips and sewage sludge) was used as an alternative amendment to inorganic fertilisers during the rehabilitation of platinum mine tailings. The effectiveness of the woodchip-vermicompost as an alternative amendment during the platinum mine tailings rehabilitation were monitored using different ecosystem components. A natural veldt in the vicinity of the mine area was randomly selected to serve as a reference site. These ecosystem components selected have previously been shown to be effective as indicators of ecosystem quality. The components selected for this study includes the use of microbial enzymatic activity, microbial community structure, nematode trophic structures, and other mesofaunal groups such as micro-arthropods. The physical and chemical properties of the platinum mine tailings and reference area as well as the vegetation cover of the platinum mine tailings were determined. Statistical and multivariate analyses were use to determine the correlation between the dependent microbial components and dominate independent chemical properties. Nematode trophic structure, Maturity Index, and Plant-Parasitic nematode Index were used to compare the two rehabilitation techniques in terms of nematodes as indicators. Microarthropods family structures were used to compare the two amendments in terms of diversity and abundance. Enzymatic activity was positively affected by the addition of woodchip-vermicompost, than in the sites treated with inorganic fertilisers. The microbial community structure showed no statistically significant (p < 0.05) differences between the two amendments. A higher abundance of nematodes especially plant-parasitic nematodes and bacterivorous nematodes were observed in the woodchip-vermicompost sites than in the inorganic fertilised sites. According to the Maturity Index, both amendments became more enriched during the study period, while the Plant-Parasitic nematode Index showed that the carrying capacity for plantparasitic nematodes on the woodchip-vermicompost sites increased while it decreased in the inorganic fertilised sites, which can be related to the decrease in vegetation cover on the inorganic fertilised sites. Both coloniser (Prostigmata) and persister (Cryptostigmata and Mesostigmata) groups of the micro-arthropods, as well as a higher diversity of micro-arthropods, were present on the woodchip-vermicompost sites whereas the inorganic fertilised sites showed only the presence of colonisers, with a decrease in diversity and abundance of micro-arthropods over the study. The colonisation of micro-arthropods may have been affected by the addition of woodchip-vermicompost and vegetation cover, which contribute to the establishment of suitable microhabitats for these soil biota. By intercorrelating the results, it may be concluded that the addition of woodchip-vermicompost may be an essential part of the rehabilitation process, by contributing to soil organic material to the ecosystem system, which may improve the recolonisation of soil biota and ecosystem processes. However further studies need to be conducted in order to determine the long-term sustainability of the woodchip-vermicompost in providing organic material and sustaining the ecosystem processes. The study also showed the necessity to integrate various ecosystem components when evaluating ecosystem development due to the unique role each component plays and the impact it may have on other components. / Thesis (M. Environmental Science)--North-West University, Potchefstroom Campus, 2006.

Inorganic fertilisers

Mesofauna

Microbial community structure

Microbial enzymatic activity

Nematode trophic structure

Platinum mine tailings

Woodchip-vermicompost

The Effect of Herbicide Respray Treatments and Timings on Regrowth of Four Weed Species

Jesse A Haarmann (6623615)

14 May 2019

<p>Control of weeds that have survived a postemergence (POST) herbicide often need to be controlled in order to prevent seed production and interference with crops. The most efficacious herbicides and timings used for respray applications has not been determined in many problematic weed species. Previous research has demonstrated that weeds clipped to simulate a failed herbicide application responded differently to herbicide applications to regrowth based on herbicide used and weed species. Other research is conflicting as to the optimum timing of an herbicide respray application with various herbicides. Gaining a better understanding of how to maximize respray herbicide performance will help growers and land managers to preserve crop yield and prevent weed seed production in the event of POST contact herbicide failure. The objectives of this research were to determine the optimum respray herbicide and timing combinations for control of four problematic weed species in the midwestern United States that have survived an application of either glufosinate or fomesafen: waterhemp<i> </i>[<i>Amaranthus tuberculatus</i> (Moq.) J. D. Sauer], Palmer amaranth (<i>Amaranthus palmeri</i> S. Watts), giant ragweed (<i>Ambrosia trifida</i> L.), and horseweed (<i>Erigeron canadensis</i> L). Through a series of field and greenhouse experiments we determined that respray herbicide, respray application timing, initial herbicide, and level of injury from the initial application influence efficacy of the respray herbicide in a species-specific manner. Waterhemp regrowth following a failed glufosinate application was controlled most effectively by applying glufosinate or fomesafen 7 to 11 days after initial treatment. When following fomesafen, applications of 2,4-D 3-7 days after initial treatment or glufosinate 7 to11 days after initial treatment were most effective. Control of Palmer amaranth regrowth following either initial herbicide is best achieved with respray applications of glufosinate, fomesafen, or 2,4-D applied no later than 7 days after initial treatment. The best strategy to control giant ragweed regrowth following a failed fomesafen applications is to apply 2,4-D, dicamba, fomesafen, or glufosinate at any timing between 3 and 11 days after initial treatment. Efficacy of the respray glufosinate application was maximized when applied 11 days after the initial application rather than 3 days after initial application. Horseweed regrowth was best controlled by 2,4-D, dicamba, or glufosinate applied at any timing between 3 and 11 days after the initial application. Where injury from the initial herbicide application is high, there were fewer differences among herbicide treatments and treatment timings. A greenhouse bioassay revealed that as waterhemp injury from an initial glufosinate application increases, control with a respray herbicide also increases. Therefore, complete control of weed regrowth is achieved more easily with increasing injury from the initial application. This research suggests that timing of herbicide respray applications is more urgent than previously thought, so scouting must be done within days of a contact herbicide application to ensure adequate control. </p>

Botany

Weed control

Sequential herbicide

Regrowth

Herbicide application

The Effect of Agricultural Intensification on Nitrate Concentrations in Shallow Groundwater in Two Watersheds in Ethiopia / Jordbruksintensifierings effekt på nitratkoncentrationer i ytliga grundvatten i två avrinningsområden i Etiopien

Larsson, Anna

January 2019

Sustainable intensification of agricultural will be crucial in the future to feed a growing population and address ongoing climate changes. Ethiopia is still dominated by traditional agricultural practices and the population is expected to increase from todays 110 million to 174 million in 2050, making sustainable implementations of intensified agricultural methods crucial. In this study, two watersheds with differences in agricultural intensification and geophysical attributes in Amhara region, north western Ethiopia, are evaluated based on nitrogen content in wells. An attempt to explain the differences in contamination levels of nitrate between the two watersheds are done by examining the usage of fertilisers, amount of livestock and irrigation habits as well as topography. The result showed that the less intensified watershed exceeded the WHO guidelines for nitrate more frequently than the more intensified watershed. Temporal patterns in contamination levels in specific wells could be seen in both watersheds, where the WHO guidelines being most frequently exceeded in July and September versus July and November for the watersheds respectively. No significant correlations between nitrate concentration and explaining parameters were detected in any of the watersheds. The methods used in this paper could not explain the variations in contamination levels. The results imply that the nitrate responses are very site-specific. Evaluations including more precise details on crop management and subsurface flow patterns as well as on other factors influencing contamination levels in wells, such as distance to household and cattle, are needed in further investigations as agriculture continues to intensify / En hållbar utveckling av jordbruket kommer att vara avgörande för att föda en växande befolkning och möta pågående klimatförändringar. I Etiopien domineras jordbruket av traditionella metoder och befolkningen i landet förväntas öka från dagens 110 miljoner till 174 miljoner år 2050, vilket medför att hållbara lösningar gällande bevattning och gödslingsanvändning blir viktiga. Två avrinningsområden med olika karaktär gällnade intensifiering av jordbruk och topografi i Amhara-regionen i nordvästra Etiopien utvärderas utifrån kvävekoncentrationer i brunnar. Ett försök att förklara kvävekoncentrationer görs genom att utvärdera användningen av gödslingsmedel, mängd boskap och bevattningsvanor. Resultatet visade att det mindre intensifierade avrinningsområdet överskred WHO:s riktlinjer vid fler tillfällen än den mer intensifierade. Temporala skillnader i föroreningsnivåer kunde ses i specifika brunnar i båda avrinningsområdena, där WHO:s riktlinjer överskreds mest frekvent i juli och september respektive juli och november. Inga signifikanta korrelationer mellan nitratkoncentration och förklarande faktorer påvisades i någon av avrinningsområdena. Metoden som användes i studien kunde inte förklara de variationer som förekom i brunnarnas kontamineringsnivåer. Resultaten indikerar dock att orsakerna är platsspecifika och studier baserade på mer detaljerade data om odlingsätt och markvattenflöden samt andra påverkande faktorer, såsom avstånd till hushåll och boskap behöver göras då intensifieringen av jordbruket fortskrider.

agricultural intensification

Ethiopia

fertilisers

groundwater

nitrate

watershed

avrinningsområde

Etiopien

grundvatten

gödslingsmedel

jordbruksintensifiering

nitrat

Engineering and Technology

Teknik och teknologier

The use of different ecosystem components as indicators of ecosystem development during platinum mine tailings rehabilitation / Juanita Rossouw

Rossouw, Johanna Martina

January 2005

Thesis (M. Environmental Science)--North-West University, Potchefstroom Campus, 2006.

Inorganic fertilisers

Mesofauna

Microbial community structure

Microbial enzymatic activity

Nematode trophic structure

Platinum mine tailings

Woodchip-vermicompost

The use of different ecosystem components as indicators of ecosystem development during platinum mine tailings rehabilitation / Johanna Martina (Juanita) Rossouw

Rossouw, Johanna Martina

January 2005

Platinum mining activities contribute substantially to South Africa's economy since it exceeded gold as economical contributor in 2001. Mining activities contribute to large amounts of waste production in the form of tailings and rock waste, deposited in the surrounding environment of the mine premises. Mining companies are held responsible for damages caused to the surrounding environment. These companies are required to introduce the cost of ecological rehabilitation in their operation costs as well as compile an environmental management plan. Numerous attempts to rehabilitate mine waste have proven unsuccessful. New and improved rehabilitation techniques are required to facilitate in the rehabilitation of these mine spoils. Woodchip-vermicompost produced from platinum mining wastes (woodchips and sewage sludge) was used as an alternative amendment to inorganic fertilisers during the rehabilitation of platinum mine tailings. The effectiveness of the woodchip-vermicompost as an alternative amendment during the platinum mine tailings rehabilitation were monitored using different ecosystem components. A natural veldt in the vicinity of the mine area was randomly selected to serve as a reference site. These ecosystem components selected have previously been shown to be effective as indicators of ecosystem quality. The components selected for this study includes the use of microbial enzymatic activity, microbial community structure, nematode trophic structures, and other mesofaunal groups such as micro-arthropods. The physical and chemical properties of the platinum mine tailings and reference area as well as the vegetation cover of the platinum mine tailings were determined. Statistical and multivariate analyses were use to determine the correlation between the dependent microbial components and dominate independent chemical properties. Nematode trophic structure, Maturity Index, and Plant-Parasitic nematode Index were used to compare the two rehabilitation techniques in terms of nematodes as indicators. Microarthropods family structures were used to compare the two amendments in terms of diversity and abundance. Enzymatic activity was positively affected by the addition of woodchip-vermicompost, than in the sites treated with inorganic fertilisers. The microbial community structure showed no statistically significant (p < 0.05) differences between the two amendments. A higher abundance of nematodes especially plant-parasitic nematodes and bacterivorous nematodes were observed in the woodchip-vermicompost sites than in the inorganic fertilised sites. According to the Maturity Index, both amendments became more enriched during the study period, while the Plant-Parasitic nematode Index showed that the carrying capacity for plantparasitic nematodes on the woodchip-vermicompost sites increased while it decreased in the inorganic fertilised sites, which can be related to the decrease in vegetation cover on the inorganic fertilised sites. Both coloniser (Prostigmata) and persister (Cryptostigmata and Mesostigmata) groups of the micro-arthropods, as well as a higher diversity of micro-arthropods, were present on the woodchip-vermicompost sites whereas the inorganic fertilised sites showed only the presence of colonisers, with a decrease in diversity and abundance of micro-arthropods over the study. The colonisation of micro-arthropods may have been affected by the addition of woodchip-vermicompost and vegetation cover, which contribute to the establishment of suitable microhabitats for these soil biota. By intercorrelating the results, it may be concluded that the addition of woodchip-vermicompost may be an essential part of the rehabilitation process, by contributing to soil organic material to the ecosystem system, which may improve the recolonisation of soil biota and ecosystem processes. However further studies need to be conducted in order to determine the long-term sustainability of the woodchip-vermicompost in providing organic material and sustaining the ecosystem processes. The study also showed the necessity to integrate various ecosystem components when evaluating ecosystem development due to the unique role each component plays and the impact it may have on other components. / Thesis (M. Environmental Science)--North-West University, Potchefstroom Campus, 2006.

Inorganic fertilisers

Mesofauna

Microbial community structure

Microbial enzymatic activity

Nematode trophic structure

Platinum mine tailings

Woodchip-vermicompost

Nutrition of container grown plants with emphasis on the Proteaceae

Thomas, M. B.

January 1979

A range of Proteaceous shrubs and other nursery plants were grown in containers with soilless media and various N levels. Plants demonstrated a range of responsiveness. Supplying soilless media with Osmocote (26% N) and other short term fertilisers proved to be a satisfactory method of studying the comparative nutrition of a wide range of container grown nursery plants using factorial experiments incorporating N, P, K and lime. Nutrient response surfaces were obtained using a central composite incomplete block design. Most Proteaceous shrubs were intolerant of high P levels due to excessive luxury consumption resulting in toxic foliar nutrient levels, especially in the presence of high N. Phosphorus sensitivity in plants appeared to correspond with the soil nutrient levels in their native habitat. This applied to species studied in the 2 main sub-families in the Proteaceae while similar findings were indicated for other Australian genera. A range of optimum N requirements in the Proteaceae was found – lowest needs for Protea which also had the greatest tolerance of very low fertiliser additions, compared to Grevillea robusta with much higher N requirements and strong foliage growth inhibition if nutrient levels are very low. Proteoid root growth on Grevillea rosmarinifolia only occurred at low nutrient levels and was not required for satisfactory foliage growth of container grown plants. Pot plants and seedlings, especially tomato, responded strongly to N and often there were positive NK interactions influencing foliage growth. Lime requirements were studied and in erica increasing lime rates depressed foliage growth. Comparative nutrition studies indicate that general or broad spectrum container media may be unsuitable for some groups of nursery plants and that they could be replaced by potting mixes designed to meet the widely differing needs of the species often grown. The number of specialist mixes would depend on the range of plants and be governed by management considerations.

Proteaceae

soilless media

nutrients

container grown

fertiliser