Development of a pepper (Capsicum annuum L.) hybrid variety with resistance to potato virus Y (PVY) using molecular breeding.

Moodley, Vaneson.

03 June 2014

Pepper (Capsicum annuum L.) is an important vegetable crop grown and consumed worldwide. Potato virus Y (PVY) is a globally economically important pathogen which significantly reduces the yield and quality of cultivated pepper. The virus is considered as a major limiting factor to the economic production of pepper in the province of KwaZulu-Natal (KZN) in the Republic of South Africa (RSA). Many applied practices to control the spread of PVY are ineffective to mitigate the losses incurred by many farming communities across the KZN province. Therefore, the objectives of this study was to determine the full genome sequence of a PVY isolate from KZN, to identify resistance alleles in commercially available pepper varieties in KZN and to develop a pepper hybrid variety with resistance to PVY using a molecular breeding strategy The first part of the study was conducted to determine the first full genome sequence of a PVY isolate (JVW-186) infecting pepper from KZN. The complete genome sequence of JVW-186 was assembled from overlapping RT-PCR clones using MEGA 5 software. Individual ORFs were identified using the nucleotide data base NCBI and aligned using CLUSTALW. RDP4 software was used to identify recombination junctions in the sequence alignment of JVW-186. CLC Main Workbench 6 software was used to determine the nucleotide sequence similarity of recombinant and non-recombinant fragments of JVW-186 in conjunction with ten PVY parental isolates. Based on sequence data, virus morphology and the coat protein size as determined by SDS-PAGE analysis, the identity of the isolate JVW-186 was confirmed as PVY. Phylogenetic trees were constructed from all recombinant and non-recombinant segments of the sequence by the maximum likelihood method using MEGA 5 software. The full length sequence of JVW-186 consisted of 9700bp. Two ORF’s were identified at position 186 and 2915 of the sequence alignment encoding the viral polyprotein and the frameshift translated protein P3N-PIPO, respectively. RDP4 software confirmed two recombination breakpoints at position 343 and 9308 of the sequence resulting in four segments of the genome. At each recombination event, a 1021-bp fragment at the 5’ end in the region of the P1/HC-Pro protein and a 392-bp fragment in the region of the coat protein shared a high sequence similarity of 91.8 % and 98.89 % to the potato borne PVYC parental isolate PRI-509 and the PVYO parental isolate SASA-110 respectively. The non-recombinant fragment 1 clustered within the C clade of PVY isolates; however the large 7942-bp fragment 3 did not cluster within any of the clades although it shared > 80% nucleotide sequence similarity to other PVY isolates used in this study. Our results suggest that isolate JVW-186 is a novel recombinant strain of PVY that could have evolved due to the dynamics of selection. The second part of the study aimed to evaluate different pepper lines for resistance to PVY. Two recessive alleles (pvr21 and pvr22) located on the pvr2-elF4E locus are known to confer resistance to the virus. To this end, six pepper lines were challenged with PVY infected Nicotiana tabacum cv. Xanthi leaf material using mechanical inoculation under greenhouse conditions. Each line was assessed for resistance to PVY by visual screening for disease severity and quantitative enzyme linked immunosorbent assay (ELISA) for virus load. Pepper lines were further characterized using tetra-primer ARMS-PCR (amplification refractory mutation system polymerase chain reaction) to identify and differentiate the presence of homozygous/heterozygous resistance alleles that confer PVY resistance. Evaluations revealed two resistant pepper lines (Double Up and Cecelia) and varying levels of susceptibility in the other four pepper lines challenged with PVY. The most susceptible pepper line was Benno, although high levels of susceptibility were observed in three other lines (IP, Mantenga and Excellence). The pvr2+ allele was positively identified in all the susceptible pepper lines using the T200A tetra-primer which confirms that the presence of this allele is dominant for PVY susceptibility. Double Up and Cecelia were genotyped homozygous pvr21/pvr21 and pvr22/pvr22 respectively, and remained asymptomatic throughout the trial which indicates that these alleles confer resistance to the isolate of PVY used in this study. The information generated in this study can be incorporated into breeding programs intended to control PVY on pepper in KZN. The final part of the study focused on the development of resistant varieties as the best alternative to manage PVY diseases on pepper. Homozygous F2 pepper lines were developed from local germplasm carrying PVY resistance genes (pvr21 and pvr22) using marker assisted selection (MAS). The F1 progeny was obtained by crossing a homozygous pvr21 (resistant) ‘Double Up’ cultivar with a heterozygous susceptible (pvr2+/pvr22) ‘Benno’ cultivar. F1 and F2 generations were assessed for the presence of PVY resistance/susceptibility alleles (pvr2+/pvr21/pvr22) at the pvr2-elF4e locus using the tetra primer amplification refractory mutation system – polymerase chain reaction (ARMS-PCR) procedure. Negative selection was carried out using the tetra-primer T200A marker to detect the pvr2+ (susceptible) allele. All F1 progeny displaying the pvr2+ allele were eliminated from further study. All 302 plants belonging to 29 F2 families expressing homozygous recessive traits were tested via mechanical inoculation for their response to PVY infection and resistance to PVY was confirmed in all selected families based on symptomatology in greenhouse house screens using double antibody sandwich enzyme linked immunosorbent assay (DAS-ELISA). These results show that ARMS-PCR can be used to successfully screen pepper genotypes for alleles that confer PVY resistance thereby contributing to the improvement of pepper production using molecular breeding approaches. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2013.

Peppers--Varieties--KwaZulu-Natal.

Potato virus Y--KwaZulu-Natal.

Peppers--Breeding--KwaZulu-Natal.

Theses--Plant pathology.

The development of an enzyme linked immunosorbent assay for the detection of the South African strain(s) of grapevine fanleaf nepovirus

Liebenberg, Annerie

12 1900

Thesis (MSc (Genetics))--Stellenbosch University, 2008. / South Africa is one of the top ten wine producing countries in the world. The South African wine industry contributes approximately R16.3 billion to South Africa’s annual gross domestic product with 42.8% of wine being exported. To compete with the top wine producing countries and to ensure a viable export market, South Africa needs to ensure that healthy, virus free propagation material is produced and sold. One of the viruses that need to be tested for is Grapevine fanleaf virus (GFLV). Grapevine fanleaf virus causes degeneration and malformation of berries, leaves and canes and is responsible for significant economic losses by reducing crop yields by as much as 80%, reducing the longevity of the vines and affecting fruit quality. It is widespread in the Breede River Valley of the Western Cape where the nematode vector, Xiphinema index, is prevalent. The Breede River Valley contributes approximately 30% of the total production of the local wine industry, and severe losses in this region could threaten the viticulture. The Plant Improvement Act states that all propagation material sold must be tested for GFLV by a reputable scientific technique. The technique commonly used in South Africa is the Double Antibody Sandwich - Enzyme-linked Immunosorbent Assay (DAS-ELISA) and the kits are imported from Europe at a significant cost to the South African viticulture industry. The objective of this study was to produce a reliable and sensitive diagnostic assay specific for the South African strains of GFLV. This project aimed to develop and optimize a DAS-ELISA, by using recombinant DNA technology to produce antibodies against bacterially expressed viral coat protein. Total RNA was extracted from GFLV infected grapevine material and the viral coat protein (CP) amplified. The CP was cloned into the pGex-6P-2 expression vector, fusing a Glutathione STransferase (GST) partner to the viral coat protein enhancing solubility and protein purification. Insufficient amounts of the soluble protein were expressed and purified, preventing the production of antibodies and thus the development of the DAS-ELISA. An alternative diagnostic rapid-direct-one-tube-RT-PCR assay was developed. This rapid-directone- tube-RT-PCR assay was compared to commercially available DAS-ELISA and ImmunoStrip tests (Agdia) to assess the reliability, sensitivity and specificity of the rapid-direct-one-tube-RTPCR assay. Twelve GFLV isolates from South Africa were sequenced to investigate the variability between the isolates as well as the variability between the South African isolates and GFLV sequences available in Genbank. Sequence identities between clones from different GFLV isolates from South Africa were between 86-99% and 94-99% at the nucleotide and amino acid levels, respectively. Phylogenetic analysis based on the coat protein gene sequences showed that the South African isolates form two distinct clades or sub-populations. No significant correlation was found between geographical origin and symptoms, nor between geographical origin and sequence variability or between grapevine cultivar and symptom expression. Of the 23 samples tested with all three tests, 21 tested positive with rapid-direct-one-tube-RT-PCR, 19 with the ImmunoStrips and 17 with an imported DAS-ELISA kit (Agdia). Rapid-direct-one-tube-RT-PCR was found to be the most reliable technique for GFLV detection. Although the establishment of a DAS-ELISA directed to the South African strain(s) of GFLV was not successful, an alternative PCR based diagnostic system was developed, and proved to be sensitive and reliable. RT-PCR based diagnostic assays are generally accepted to be more sensitive than DAS-ELISA, but the latter is still used as the diagnostic assay of choice for routine testing due to ease of use. This rapid-direct-one-tube-RT-PCR assay is a rapid, sensitive and reliable diagnostic test, reducing the prevalence of false negatives, contributing to a virus free viticulture industry. The rapid-direct-one-tube-RT-PCR assay is as easy to use as DAS-ELISA, faster and can be performed by semi skilled workers, thus providing all the advantages associated with DAS-ELISA.

GFLV

DAS-ELISA

Grapevine fanleaf virus

Virus diseases of grapes

Dissertations -- Genetics

Theses -- Genetics

Virus diseases of plants -- South Africa

The molecular characterization of South African isolates of Grapevine Rupestris Stem Pitting-associated virus (GRSPaV)

Noach, Liesl Christine

12 1900

Thesis (MSc (Genetics))--University of Stellenbosch, 2010. / Includes bibliography. / ENGLISH ABSTRACT: The first aim of this study was to reliably and rapidly detect Grapevine rupestris stem pittingassociated virus (GRSPaV) in grapevine. This was achieved by screening 94 grapevines using crude plant extracts in both quantitative and conventional reverse transcription polymerase chain reaction (RT-PCR). The second aim was to establish a technique capable of differentiating GRSPaV sequence variants. The application of this technique is for the largescale screening of diseased vines to associate sequence variants of GRSPaV with disease symptoms. Nested quantitative polymerase chain reaction and high resolution melting assays (qPCR-HRM) were developed for three regions of the GRSPaV genome (coat protein, RNAdependant RNA-polymerase and triple gene block movement protein). The qPCR-HRM technique using the high saturation dye, EvaGreen™, and the Rotor-Gene™ 6000 analyzer was validated with a panel of sixteen sequence-characterized viral isolates. Diluted RT-PCR products and cloned cDNA gave the most consistent amplification plots and dissociation profiles. RT-PCR products generated from total RNA extracts were used as template for qPCR-HRM assays and for direct sequencing of sixteen samples in the three aforementioned regions. The average amplification efficiency for qPCR was 1.52±0.04. Auto-calling of userdefine genotypes was performed at a confidence interval of 70%. Phylogenetic analysis of the three regions of the GRSPaV genome was performed with published GenBank sequences to confirm the HRM data. The dominant sequence variants found in the South African sample set radiated with Group II, reference full-length variant GRSPaV-SG1. GRSPaV-infected samples can in future be subjected to qPCR-HRM assays developed during this study. This can be performed to establish similarity to known genotypes and therefore phylogenetic groups. Mixed infection of sequence variants and quasi-species were a common occurrence. The assay will be useful in establishing correlation of specific genotypes to different phenotypical expression of viral disease. This could provide insight into the etiology of diseases associated with GRSPaV. / AFRIKAANSE OPSOMMING: Die eerste doel van hierdie studie was om die virus wat met Rupestris-stamverpitting (Grapevine rupestris stem pitting-associated virus of “GRSPaV”) in wingerd verbind is, vinnig en betroubaar op te spoor. Dit is bereik deur 94 wingerdstokke vir die teenwoordigheid van die virus te toets met beide kwantitatiewe en konvensionele trutranskripsie polimerase kettingreaksies (RT - PCR) vanaf ongesuiwerde plant-ekstraksies. Die tweede doel was die daarstelling van ’n tegniek om onderskeid te tref tussen variante van GRSPaV met verskillende nukleotiedvolgordes. Hierdie tegniek kan op groot skaal gebruik word om ge-affekteerde wingerdstokke te toets om sodoende siektesimptome met spesifieke variante van GRSPaV te verbind. Ge-neste kwantitatiewe polimerase-kettingreaksies (qPCR) en hoë-resolusie smelt-analises (HRM) is ontwikkel vir drie streke van die GRSPaV-genoom (mantelproteïen, RNS-afhanklike RNS-polimerase en trippelgeenblok bewegingsproteïen). Die tegniek van qPCR-HRM met die hoë-versadingingskleurstof EvaGreen™ en die Rotor- Gene™ 6000 ontleder se geldigheid is bevestig deur vergelyking met ’n paneel van sestien virus-isolate waarvan die volgorde reeds bepaal is. Verdunde RT-PCR-produkte en gekloneerde DNS het die mees konsekwente amplifikasie-uitstipping en dissosiasieprofiele opgelewer. RT-PCR-produkte wat vanuit totale RNS-ekstrakte verkry is, is as templaat vir qPCR-HRM-analises gebruik. Dieselfde produkte is ook gebruik, om die volgorde van sestien monsters in drie streke direk te bepaal. Die gemiddelde amplifikasiedoeltreffendheid van die qPCR was 1.52±0.04. Gebruiker-gedefinieerde genotipes is deur middel van outooproeping teen ’n vertroue-interval van 70% uitgevoer. Filogenetiese analises vir drie streke van die GRSPaV-genoom is uitgevoer met gepubliseerde GenBank-volgordes om die HRMdata te bevestig. Die dominante volgorde-variante in die stel Suid-Afrikaanse monsters het ooreengestem met Groep II, vollengte-verwysingsvariant GRSPaV-SG1. Monsters wat met GRSPaV besmet is kan in die toekoms onderwerp word aan die qPCR-HRM-analises wat in hierdie studie ontwikkel is. Dit kan uitgevoer word om ooreenkomste met bekende genotipes te bepaal, en dus ook met filogenetiese groepe. Die besmetting van plante met meer as een volgorde-variant het algemeen voorgekom. Die kwasi-spesies populasie-struktuur van die virus het ook gedurig na vore gekom. Die toets sal nuttig wees in die bepaling van korrelasies tussen spesifieke genotipes en verskillende fenotipiese voorkomste van virussiektes. Dit kan insig verleen in die etiologie van siektes wat met GRSPaV verbind word.

Rugose wood

Flexiviridae

High resolution melt analysis

qRT-PCR

Dissertations -- Genetics

Theses -- Genetics

GRSPaV

Virus diseases of plants

Studies on Sclerotinia sclerotiorum (Sclerotinia stem rot) on soybeans.

Visser, Dael Desiree.

January 2007

Soybeans, Glycine max, are an economically and strategically important crop in South Africa (SA). In order to meet local demands, large imports of soybeans are required, e.g., in the 2005/2006 soybean production period, 842 107 tonnes of oilcake were imported. Due to an increase in soybean production throughout the world, diseases that affect this crop have also increased in incidence and severity. Sclerotinia sclerotiorum, the causal organism of sclerotinia stem rot (SSR), is an important yield limiting disease of soybeans, as well as numerous other crops. The pathogen was first reported in SA in 1979. However, it was only in 2002 that this fungus was considered a major pathogen of soybeans in SA. The research reported in this thesis was conducted to investigate the epidemiology of S. sclerotiorum and examine numerous potential control methods for this pathogen, i.e., resistant cultivars, biocontrol, chemical control and seed treatments. A S. sclerotiorum isolate was obtained from sunflowers in Delmas, Mpumulanga, SA, in the form of sclerotia. This isolate was cultured and sent for identification and deposition in the Plant Protection Research Institute collection. This isolate, in the form of mycelia, was used for the duration of the study. For epidemiology studies, the effect of temperature, leaf wetness duration (LWD) and relative humidity (RH) were examined for their effect on rate of pathogen development. Twenty four combinations of temperature (19°C, 22°C, 25°C and 28°C), LWD (24, 48 and 72 hr) and RH (85 and 95%) were investigated. No interaction between temperature, LWD and RH was found. Temperature alone was the only factor that affected disease development. At 22°C, the rate of pathogen development (0.45 per unit per day) was significantly higher than all other temperatures, indicating that this temperature is optimum for disease development. Thirteen different soybean cultivars, i.e., LS6626RR, LS6710RR, LS666RR, LS555RR, LS6514RR, LS678RR, Prima 2000, Pan 626, AG5601RR, AG5409RR, 95B33, 95B53 and 96B01B, commercially grown in SA were investigated for their reaction to S. sclerotiorum. Prima 2000, 96B01B, 95B33 and AG5409RR were considered to be the least susceptible as they showed a significantly low rate of pathogen development (0.28, 0.28, 0.24, 0.23 per unit per day, respectively) and produced a significantly low number of sclerotia (3.03, 3.42, 3.21, 2.38, respectively). LS6626R and LS666RR may be considered most susceptible because of their significantly high rate of pathogen development (0.45 and 0.42 per unit per day, respectively) and high sclerotia production (8.16 and 7.50, respectively). Regression analysis showed a positive correlation coefficient (R2=0.71) between rate of growth of the pathogen and number of sclerotia produced, indicating that a higher rate is associated with a higher number of sclerotia. In vitro dual culture bioassays were performed to identify the biocontrol mechanisms of the biocontrol agents, EcoT® (a seed treatment) and Eco77® (a foliar treatment), against hyphae and sclerotia of S. sclerotiorum. Ultrastructural studies revealed that mycoparasitism is the probable mode of action as initial signs of hyphae of EcoT® and Eco77® coiling around hyphae of S. sclerotiorum were observed. Surface colonization of sclerotia by hyphae of EcoT® and Eco77® was also observed. In vitro antagonism of EcoT® against S. sclerotiorum on soybean seed was performed to determine pre-emergence and post-emergence disease. There was no significant difference in percentage germination between seeds treated with EcoT® and plated with the pathogen, untreated seeds and no S. sclerotiorum, and the control (i.e. no EcoT® and no pathogen). However, percentage non infected seedlings from seeds not treated with EcoT® was significantly lower, suggesting that EcoT® may be successfully used as a seed treatment for the control of SSR. In vivo trials were performed to investigate the effect of silicon (Si) alone, and in combination with Eco77®, on the effect of the rate of disease development. Plants treated with Eco77® had a significantly lower rate of disease development (0.19 per unit per day for plants treated with Eco77® and S. sclerotiorum and 0.20 per unit per day for plants treated with Eco77®, S. sclerotiorum and Si), compared to plants not treated with Eco77® (0.29 per unit per day for plants treated with S. sclerotiorum and 0.30 per unit per day for plants treated with S. sclerotiorum and Si), regardless of the application of Si. Similarly, plants treated with Eco77® had a significantly lower number of sclerotia (0.46 for plants treated with Eco77® and S. sclerotiorum and 0.91 for plants treated with Eco77®, S. sclerotiorum and Si), compared to plants not treated with Eco77® (3.31 for plants treated with S. sclerotiorum and 3.64 for plants treated with S. sclerotiorum and Si). The significantly lower rate of disease development coupled with a significant reduction in sclerotia showed that Eco77®, and not Si, was responsible for reducing the severity of SSR. A strong positive correlation between rate of disease development and the number of sclerotia produced (R2=0.79) was observed. For the investigation of various fungicides for the control of S. sclerotiorum, in vitro trials to determine the potential of three different fungicides at different rates, i.e., BAS 516 04F (133 g a.i. ha-1), BAS 516 04F (266 g a.i. ha-1), BAS 512 06F (380 g a.i. ha-1) and Sumisclex (760 g a.i. ha-1) were initially conducted. The control (non-amended PDA) had a significantly higher area under mycelial growth curve (243.0) than all fungicides tested. BAS 516 04F (at both concentrations) and BAS 512 06F completely inhibited the mycelial growth of S. sclerotiorum. Sumisclex inhibited the fungus by 89.07%. For in vivo trials, preventative treatments, i.e., BAS 516 04F (133 g a.i. ha-1), BAS 516 04F (266 g a.i. ha-1), BAS 512 06F (380 g a.i. ha-1), curative treatment, i.e. Sumisclex (760 g a.i. ha-1) and a combination preventative/curative treatment, i.e., BAS 512 06F (380 g a.i. ha-1)/Sumisclex (570 g a.i. ha-1) were investigated. No significant difference in disease severity index (DSI) was found between fungicide treatments and the inoculated control. BAS 512 06F and BAS 512 06F/Sumisclex had significantly lower grain yields (6.09 g and 5.96 g, respectively) compared to all other treatments. There was a positive correlation coefficient (R2=0.76), between DSI and grain yield, indicating that a high DSI is correlated with low grain yield. Trials to evaluate the effect of commercially available and currently unregistered seed treatments for the control of S. sclerotiorum on soybean seeds in vivo and in vitro were performed. Seed germination tests were performed to determine if seed treatments had any negative effects on seed germination in vitro. All seed treatments tested, i.e., BAS 516 03F (8, 16 and 32 ml a.i. 100 kg-1 seed), BAS 512 00F (7.5, 15 and 32 ml a.i. 100 kg-1 seed), Celest XL (100, 125, 200 and 250 ml a.i. 100 kg-1 seed), Sumisclex (5 and 10 ml a.i. 100 kg-1 seed), Benomyl (150 g a.i. 100 kg-1 seed), Captan (240 ml a.i. 100 kg-1 seed), Thiulin (180 g a.i. 100 kg-1 seed) and Anchor Red (300 ml a.i. 100 kg-1 seed), showed no negative effect on seed germination. For in vivo trials, BAS 516 03F (16 and 32 ml a.i. 100 kg-1 seed), BAS 512 00F (7.5, 15 and 32 ml a.i. 100 kg-1 seed), Celest XL (100, 125, 200 and 250 ml a.i. 100 kg-1 seed), Sumisclex (5 and 10 ml a.i. 100 kg-1 seed), Benomyl and Anchor Red had significantly similar percent germination and percent seedling survival as the untreated/uninoculated control. These seed treatments should be recommended for the control of S. sclerotiorum, as they protected seed during germination and subsequent seedling development. BAS 516 03F (8 ml a.i. 100 kg-1 seed) should not be recommended for the control of SSR, as it gave the lowest percent germination and percent seedling survival. The results presented in this thesis have helped to identify optimal environmental conditions for the development of S. sclerotiorum, which is important for the development of forecasting models for disease control. The least and most susceptible cultivars of those tested have been identified. Biocontrol using Eco77® as a foliar application showed great potential. The effect of Si needs to be further investigated, including the testing of more frequent applications and higher concentrations. The fungicides tested in this research did not show any potential for the control of SSR. However, the spray programme tested is for the control of soybean rust (Phakopsora pachyrhizi), and was investigated for its potential for the control of SSR. The spray programme, fungicide application and rating scale needs to be modified, to determine the true potential of these fungicides for the control of SSR. Numerous seed treatments have shown potential for the control of seed infection by SSR. Due to difficulties in producing ascospores, which are the primary source of inoculum for this pathogen in the field, all studies in this research were conducted with mycelia and not ascospores. The production, collection and storage of ascospores needs to be thoroughly investigated, and research conducted with ascospores. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2007.

Sclerotinia sclerotiorum--South Africa.

Fungal diseases of plants--South Africa.

Seed treatment.

Fungicides--Physiological effect.

Plant diseases--Research--South Africa.

Theses--Plant pathology.

Characterisation of Fusarium oxysporum species complex associated with Fusarium wilt of sweet potato in South Africa

Nkosi, Brightness Zama

08 1900

Sweet potato is a popular food security crop in South Africa and has a considerable commercial value. Fusarium wilt (FW), caused by the fungal pathogen Fusarium oxysporum formae speciales (f. sp.) batatas, has been reported worldwide and is widespread in sweet potato production areas in South Africa. Preliminary molecular identification of South African isolates from diseased sweet potato plants indicated that there are other formae speciales besides F. oxysporum f. sp. batatas associated with FW. The objectives of the study were to conduct a field survey and to characterise the isolates of the Fusarium oxysporum species complex (FOSC) using phylogenetic analyses, morphological characterisation and DNA barcoding. Phylogenetic analyses revealed two other formae speciales, namely F. oxysporum f. sp. tuberosi and F. oxysporum f. sp. vanillae that were associated with FW. This study has contributed in understanding and knowledge of FOSC associated with FW of sweet potato in South Africa. / Life and Consumer Sciences / M. Sc. (Life Sciences)

Beta-tubulin

DNA barcoding

Formae speciales

Ipomoea batatas

ITS

Morphological characterisation

Phylogenetic analysis

RPB2

South Africa

TEF-1α

632.320968

Fusarium oxysporum -- South Africa

Wilt diseases -- South Africa

Availability and management of manganese and water in bauxite residue revegetation

Gherardi, Mark James

January 2004

[Truncated abstract] Industrial processing to refine alumina from bauxite ore produces millions of tonnes of refining residue each year in Australia. Revegetation of bauxite residue sand (BRS) is problematic for a number of reasons. Harsh chemical conditions caused by residual NaOH from ore digestion mean plants must overcome extremely high pH (initially >12), saline and sodic conditions. At such high pH, manganese (Mn) is rapidly oxidised from Mn2+ to Mn4+. Plants can take up only Mn2+. Thus, Mn deficiency is common in plants used for direct BRS revegetation, and broadcast Mn fertilisers have low residual value. Added to this, physical conditions of low water-holding capacity and a highly compactable structure make BRS unfavourable for productive plant growth without constant and large inputs of water as well as Mn. However, environmental regulations stipulate that the residue disposal area at Pinjarra, Western Australia, be revegetated to conform with surrounding land uses. The major land use of the area is pasture for grazing stock. Hence, pasture revegetation with minimum requirement for fertiliser and water application is desirable. This thesis investigates a number of avenues with potential for maintaining a productive pasture system on BRS whilst reducing the current level of Mn fertiliser and irrigation input. Emphasis was placed on elucidation of chemical and physical factors affecting Mn availability to plants in BRS

Managenese deficiency diseases in plants

Water availability

Bauxite residue

Root exudites

Lucerne Medicago sativa