{"id":6474,"date":"2021-11-18T10:32:15","date_gmt":"2021-11-18T02:32:15","guid":{"rendered":"https:\/\/www.curtin.edu.au\/students\/student-essentials\/managing-your-course\/course-information\/molecular-and-life-sciences-research-projects\/"},"modified":"2026-02-03T11:27:10","modified_gmt":"2026-02-03T03:27:10","slug":"molecular-life-sciences-projects","status":"publish","type":"page","link":"https:\/\/www.curtin.edu.au\/students\/essentials\/managing-your-course\/course-information\/molecular-life-sciences-projects\/","title":{"rendered":"Molecular and Life Sciences research projects"},"content":{"rendered":"\n<figure class=\"wp-block-image size-large\"><img loading=\"lazy\" decoding=\"async\" width=\"1000\" height=\"500\" src=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/DSC_9499_1500-1000x500.jpg\" alt=\"\" class=\"wp-image-7549\" srcset=\"https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2021\/11\/DSC_9499_1500-1000x500.jpg 1000w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2021\/11\/DSC_9499_1500-740x370.jpg 740w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2021\/11\/DSC_9499_1500-480x240.jpg 480w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2021\/11\/DSC_9499_1500-1260x630.jpg 1260w\" sizes=\"auto, (max-width: 1000px) 100vw, 1000px\" \/><figcaption class=\"wp-element-caption\">Test tube, in the lab.<\/figcaption><\/figure>\n\n\n\n<p>The current honours projects for the School of Molecular and Life Sciences are listed below.<\/p>\n\n\n\n<h2>Centre for Crop and Disease Management (CCDM)<\/h2>\n<p>CCDM offers a wide range of honours projects. If you would like more information on the projects or the application process, please contact <a href=\"mailto:CCDM@curtin.edu.au\">CCDM@curtin.edu.au<\/a>, clearly stating the name of the project and the nature of your query.<\/p>\n\n\n<mimas-block \n        block-name=\"accordion\"\n        role=\"complementary\"\n        aria-label=\"Accordion content\"\n        data-segment=\"all\">\n\n                \n\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Sclerotinia-in-lupin\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Sclerotinia-in-lupin\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Sclerotinia-in-lupin\">Sclerotinia in lupin<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Sclerotinia-in-lupin\" aria-hidden=\"true\">\n                    <p><strong>Project outline:<\/strong>\u00a0Lupin is an important legume and break crop in the northern agricultural region of the WA grainbelt. However, it is susceptible to sclerotinia in wetter years, along with canola which is widely grown in the region. This project will be looking at variation between current varieties and advanced breeding lines, and differences in isolates of sclerotinia and their aggressiveness of infection. The project involves mainly glasshouse studies with some work in the lab culturing isolates. It may also involve some field work scoring breeding trials (linked to CCDM research and in collaboration with Australian Grains Technologies)<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Exploring-the-toxic-secretions-of-the-barley-Net-Blotch-fungi\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Exploring-the-toxic-secretions-of-the-barley-Net-Blotch-fungi\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Exploring-the-toxic-secretions-of-the-barley-Net-Blotch-fungi\">Exploring the toxic secretions of the barley Net Blotch fungi<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Exploring-the-toxic-secretions-of-the-barley-Net-Blotch-fungi\" aria-hidden=\"true\">\n                    <p>Stipend amount &#8211; available on enquiry<\/p>\n<p><strong>Project outline:<\/strong>\u00a0Pathogens secrete several molecules into their environment, some of which are toxic to the host. Using analytical techniques such as chromatography you will explore the \u00e2\u20ac\u0153secretome\u00e2\u20ac\u009d of different Net Blotch isolates to correlate these toxins with barley susceptibility.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Carpogenic-germination-temperature-triggers-in-sclerotia---What-is-the-upper-limit?\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Carpogenic-germination-temperature-triggers-in-sclerotia---What-is-the-upper-limit?\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Carpogenic-germination-temperature-triggers-in-sclerotia---What-is-the-upper-limit?\">Carpogenic germination temperature triggers in sclerotia &#8211; What is the upper limit?<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Carpogenic-germination-temperature-triggers-in-sclerotia---What-is-the-upper-limit?\" aria-hidden=\"true\">\n                    <p>Stipend amount &#8211; available on enquiry<\/p>\n<p><strong>Project outline:<\/strong>\u00a0The production of apothecia (small mushroom-like structures) from sclerotes in the soil, that release spores are the primary reproductory method of Sclerotinia in the field. Recent research has shown that maximum germination occurs at alternating diurnal temperatures of 20\/15\u00b0C, but that no germination occurs at 30\/15\u00b0C. What is the upper limit beyond which germination does not occur between these two temperatures.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Functional-studies-of-host-selective-toxins-in-P.-nodorum\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Functional-studies-of-host-selective-toxins-in-P.-nodorum\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Functional-studies-of-host-selective-toxins-in-P.-nodorum\">Functional studies of host-selective toxins in P. nodorum<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Functional-studies-of-host-selective-toxins-in-P.-nodorum\" aria-hidden=\"true\">\n                    <p><strong>Project outline:<\/strong>\u00a0A set of toxin candidates were identified using GWAS panel of 154 P. nodorum isolates. The objective of the project is to characterise the predicted effectors by cloning them into a protein expression vector and generating gene deletion mutants. Effector activities and effector impact on pathogenicity will be assessed using various genetics and biochemical techniques.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Characterisation-of-the-infection-of-Brassica-napus-by-Sclerotinia-sclerotiorum-using-light-and-confocal-microscopy\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Characterisation-of-the-infection-of-Brassica-napus-by-Sclerotinia-sclerotiorum-using-light-and-confocal-microscopy\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Characterisation-of-the-infection-of-Brassica-napus-by-Sclerotinia-sclerotiorum-using-light-and-confocal-microscopy\">Characterisation of the infection of Brassica napus by Sclerotinia sclerotiorum using light and confocal microscopy<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Characterisation-of-the-infection-of-Brassica-napus-by-Sclerotinia-sclerotiorum-using-light-and-confocal-microscopy\" aria-hidden=\"true\">\n                    <p><strong>Project outline:<\/strong><em>\u00a0S. sclerotiorum<\/em>\u00a0is the causal agent of sclerotinia stem rot in canola (<em>B. napus<\/em>). Under normal circumstances,\u00a0<em>S. sclerotiorum<\/em>\u00a0produces ascospores that infect\u00a0<em>B. napus<\/em>\u00a0plants via fallen petals lodged in leaf axils. Using the petals as an initial substrate for germination, the fungus grows through the stem and can lead to major yield loss by causing plant lodging. In other species, such as\u00a0<em>Helianthus annuu<\/em>s (sunflower),\u00a0<em>S. sclerotiorum<\/em>\u00a0infects predominantly through the roots. It is not known whether and how this occurs in\u00a0<em>B. napus<\/em>. This project would involve histopathological characterisation of leaf, stem and root infection with\u00a0<em>S. sclerotiorum<\/em>\u00a0mycelium. The student would conduct infection assays with resistant and susceptible\u00a0<em>B. napus<\/em>\u00a0lines to generate samples for staining and detailed microscopic analyses. To aid confocal microscopy experiments, we have generated a green fluorescent protein expressing\u00a0<em>S. sclerotiorum<\/em>\u00a0mutant strain.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Characterisation-of-candidate-genes-for-the-Sclerotinia-sclerotiorum-UV-mutant-with-reduced-pathogenicity-on-canola\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Characterisation-of-candidate-genes-for-the-Sclerotinia-sclerotiorum-UV-mutant-with-reduced-pathogenicity-on-canola\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Characterisation-of-candidate-genes-for-the-Sclerotinia-sclerotiorum-UV-mutant-with-reduced-pathogenicity-on-canola\">Characterisation of candidate genes for the Sclerotinia sclerotiorum UV-mutant with reduced pathogenicity on canola<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Characterisation-of-candidate-genes-for-the-Sclerotinia-sclerotiorum-UV-mutant-with-reduced-pathogenicity-on-canola\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong><em>S. sclerotiorum<\/em>\u00a0is the causal agent of sclerotinia stem rot in canola (<em>Brassica napus<\/em>). In the CCDM we have generated sequencing data for a\u00a0<em>S. sclerotiorum<\/em>\u00a0UV-mutant obtained from US collaborators, which has reduced pathogenicity on canola and other broad-leafed host crops. The student would align the sequencing data to the reference genome for sclerotinia and identify the mutations in genes that lead to a non-functional gene. The student would then use a targeted gene knock-out transformation system established in the CCDM lab to independently knockout the identified genes to determine which gene-knockout gives rise to the reduced pathogenicity phenotype.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Are-there-fitness-costs-in-pathogens-developing-fungicide-resistance-with-target-site-mutation-and-copy-number-variation-in-the-gene-encoding-target-fungicide-protein?\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Are-there-fitness-costs-in-pathogens-developing-fungicide-resistance-with-target-site-mutation-and-copy-number-variation-in-the-gene-encoding-target-fungicide-protein?\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Are-there-fitness-costs-in-pathogens-developing-fungicide-resistance-with-target-site-mutation-and-copy-number-variation-in-the-gene-encoding-target-fungicide-protein?\">Are there fitness costs in pathogens developing fungicide resistance with target site mutation and copy number variation in the gene encoding target fungicide protein?<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Are-there-fitness-costs-in-pathogens-developing-fungicide-resistance-with-target-site-mutation-and-copy-number-variation-in-the-gene-encoding-target-fungicide-protein?\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong>The types and mechanisms of fungicide resistance may be many and varied, but two of these include a mutation leading to modification of fungicide target site (e.g., a single amino acid substitution) and copy number variation in a gene encoding a fungicide&#8217;s target protein. Such cases were recently identified in\u00a0<em>Pyrenophora teres\u00a0<\/em>f<em>. teres, Ptt<\/em>\u00a0(the causal agent of net form of net blotch in barley) by our team. Existence of copy number variations in different isolates of a pathogen can be expected to affect some aspect of the life history trait and\/or fitness of the respective isolates. In this project, the potential candidate, will explore pathogen fitness in isolates of\u00a0<em>Ptt\u00a0<\/em>that carry target site mutation, or mutation plus varying number of gene copies, along with wild type isolates.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Population-genetics-of-the-current-Australian-P.-nodorum-collection\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Population-genetics-of-the-current-Australian-P.-nodorum-collection\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Population-genetics-of-the-current-Australian-P.-nodorum-collection\">Population genetics of the current Australian P. nodorum collection<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Population-genetics-of-the-current-Australian-P.-nodorum-collection\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong>Septoria nodorum blotch (SNB) is a complex disease of wheat caused by a fungal pathogen known as\u00a0<em>Parastagonospora nodorum<\/em>. The ability of the pathogen to adapt and successfully infect a wide range of wheat lines in many parts of the world lies in its evolutionary potential. A set of\u00a0<em>P. nodorum<\/em>\u00a0isolates will be isolated from newly obtained SNB disease samples. Thirty SSR (Simple Sequence Repeats) markers which were developed to represent the whole genome of the pathogen will be used for population structure analysis. Implications of the results will be used to design wheat breeding strategies for more sustainable SNB resistance and more generally for pathogens with NEs.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Understanding-different-pathogenicity-profiles-of-core-Australian-P.-nodorum-isolates-on-wheat-using-GWAS\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Understanding-different-pathogenicity-profiles-of-core-Australian-P.-nodorum-isolates-on-wheat-using-GWAS\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Understanding-different-pathogenicity-profiles-of-core-Australian-P.-nodorum-isolates-on-wheat-using-GWAS\">Understanding different pathogenicity profiles of core Australian P. nodorum isolates on wheat using GWAS<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Understanding-different-pathogenicity-profiles-of-core-Australian-P.-nodorum-isolates-on-wheat-using-GWAS\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong>A panel of 220 wheat lines which are insensitive to all three known effectors of\u00a0<em>P. nodorum<\/em>\u00a0pathogen (ToxA, Tox1 and Tox3) will be used to assess pathogenicity profiles of core Australian\u00a0<em>P. nodorum<\/em>\u00a0isolates which are representative of a collection of Australian\u00a0<em>P. nodorum<\/em>\u00a0population using Genome Wide Association Study (GWAS) analysis.<\/p>\n<p>This study is to:<\/p>\n<ol>\n<li>Assess pathogenicity potentials of the isolates<\/li>\n<li>Identify novel effectors produced by the pathogen and receptor from the host in Australian context<\/li>\n<li>Develop KASP markers for identified genomics regions which are highly associated with the disease incidence in the host<\/li>\n<\/ol>\n<p>The markers will be validated for their potential use in MAS (Marker Assisted Selection) wheat breeding programs for better septoria nodorum blotch disease resistance.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Tools-and-techniques-to-measure-changes-in-the-rate-of-photosynthesis-in-diseased-crop-plants\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Tools-and-techniques-to-measure-changes-in-the-rate-of-photosynthesis-in-diseased-crop-plants\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Tools-and-techniques-to-measure-changes-in-the-rate-of-photosynthesis-in-diseased-crop-plants\">Tools and techniques to measure changes in the rate of photosynthesis in diseased crop plants<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Tools-and-techniques-to-measure-changes-in-the-rate-of-photosynthesis-in-diseased-crop-plants\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong>Photosynthesis is an important determinant of crop productivity and its impairment could result in devastating yield losses. Pathogenic fungi use various chemical and physical signals to interfere and reduce the rate of photosynthesis in host plants. In the case of a necrotrophic fungal pathogen, the rate of photosynthesis is not only drastically reduced in the necrotic lesion but also in tissues directly adjacent to it. The aim of this project is to establish novel techniques and tools to determine the gradual change in the rate of photosynthesis in wheat plants showing symptoms of yellow spot. Furthermore, the rate of photosynthesis will be assessed in infected plants pre- and post-fungicide treatment.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n        \n<\/mimas-block>\n\n<mimas-block \n        block-name=\"accordion\"\n        role=\"complementary\"\n        aria-label=\"Accordion content\"\n        data-segment=\"all\">\n\n                \n\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Modelling-the-yield-penalty-of-canola-infected-by-sclerotinia\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Modelling-the-yield-penalty-of-canola-infected-by-sclerotinia\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Modelling-the-yield-penalty-of-canola-infected-by-sclerotinia\">Modelling the yield penalty of canola infected by sclerotinia<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Modelling-the-yield-penalty-of-canola-infected-by-sclerotinia\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong>Canola is an adaptable plant and typically grows to fill the space available even when establishment is poor. Therefore how much infection is required within a plant and within a crop to lead to yield loss across the paddock.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Modelling-the-risk-of-sclerotinia-infections-using-APSIM\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Modelling-the-risk-of-sclerotinia-infections-using-APSIM\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Modelling-the-risk-of-sclerotinia-infections-using-APSIM\">Modelling the risk of sclerotinia infections using APSIM<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Modelling-the-risk-of-sclerotinia-infections-using-APSIM\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong>APSIM is a researcher modelling tool that is used to model plant development and subsequent yield in relation to a range of agronomic, soil and climatic factors, allowing predictions under various scenarios such as reduced rainfall into the future. However it currently does not include options for disease within the crop.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Temperatures-required-to-initiate-the-germination-of-sclerotia-of-sclerotinia\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Temperatures-required-to-initiate-the-germination-of-sclerotia-of-sclerotinia\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Temperatures-required-to-initiate-the-germination-of-sclerotia-of-sclerotinia\">Temperatures required to initiate the germination of sclerotia of sclerotinia<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Temperatures-required-to-initiate-the-germination-of-sclerotia-of-sclerotinia\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong>Published research is predominantly from northern hemisphere temperate environments where the crop is sown in spring into increasing temperatures. In Australia, canola is sown in autumn into decreasing temperatures. What influence does this have on sclerotia germination?<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Genome-evolution-and-adaptation-mechanisms-of-fungal-pathogens\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Genome-evolution-and-adaptation-mechanisms-of-fungal-pathogens\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Genome-evolution-and-adaptation-mechanisms-of-fungal-pathogens\">Genome evolution and adaptation mechanisms of fungal pathogens<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Genome-evolution-and-adaptation-mechanisms-of-fungal-pathogens\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong>Comparing hundreds of genomes from public databases or sequenced in-house, you will predict genes responsible for causing crop disease, identify regions of pathogen genomes that are &#8216;adaptation hotspots&#8217;, and predict horizontally-transferred genes common to distantly related pathogen species.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Is-disorder-the-key-to-success?-(for-fungal-pathogens)\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Is-disorder-the-key-to-success?-(for-fungal-pathogens)\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Is-disorder-the-key-to-success?-(for-fungal-pathogens)\">Is disorder the key to success? (for fungal pathogens)<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Is-disorder-the-key-to-success?-(for-fungal-pathogens)\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong>Many proteins have conserved 3D structures that correspond to their functions and are required for their molecular interactions, but some require &#8216;intrinsic disorder&#8217; (instability) instead.\u00a0 You will predict disordered proteins and investigate relationships with virulence in known pathogenicity proteins.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Mining-for-mycoviruses-in-fungal-genomes\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Mining-for-mycoviruses-in-fungal-genomes\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Mining-for-mycoviruses-in-fungal-genomes\">Mining for mycoviruses in fungal genomes<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Mining-for-mycoviruses-in-fungal-genomes\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong>Viruses of fungi (mycoviruses) are capable of altering the virulence of fungal plant pathogens.\u00a0 Using cutting-edge sequence similarity search algorithms, you will search across multiple genomes and transcriptomes to discover novel mycoviruses.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Redefining-pathogenicity-effector-families-and-their-improving-predictive-power\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Redefining-pathogenicity-effector-families-and-their-improving-predictive-power\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Redefining-pathogenicity-effector-families-and-their-improving-predictive-power\">Redefining pathogenicity effector families and their improving predictive power<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Redefining-pathogenicity-effector-families-and-their-improving-predictive-power\" aria-hidden=\"true\">\n                    <p><strong>Project outline:\u00a0<\/strong>Build up a database of plant \u00e2\u20ac\u0153cell-killing\u00e2\u20ac\u009d protein toxins, then mine it to discover novel amino acid patterns common to proteins with pathogenicity functions.\u00a0 This resource will then be applied to predict new pathogenicity proteins across the fungal kingdom.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Comparative-genomics-of-foliar-fungal-pathogens-of-narrow-leafed-Lupin\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Comparative-genomics-of-foliar-fungal-pathogens-of-narrow-leafed-Lupin\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Comparative-genomics-of-foliar-fungal-pathogens-of-narrow-leafed-Lupin\">Comparative genomics of foliar fungal pathogens of narrow-leafed Lupin<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Comparative-genomics-of-foliar-fungal-pathogens-of-narrow-leafed-Lupin\" aria-hidden=\"true\">\n                    <p>Lupin is an emerging crop of significance in agriculture, livestock and human health, but its broader use is limited by fungal diseases.\u00a0 You will leverage existing genome sequence resources for 7 major lupin pathogen species, to perform bioinformatic comparisons and determine gene content specific to pathogenicity in lupin.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Grass:-A-secret-host-for-wheat-disease?\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Grass:-A-secret-host-for-wheat-disease?\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Grass:-A-secret-host-for-wheat-disease?\">Grass: A secret host for wheat disease?<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Grass:-A-secret-host-for-wheat-disease?\" aria-hidden=\"true\">\n                    <p>Stipend amount &#8211; up to $10,000 for one year<\/p>\n<p><strong>Project outline:\u00a0<\/strong>Wheat disease is a constant problem and can impact across other crops and grass species. We want your help in investigating the reactions of host and non-host plants to fungal disease and toxins. This research will give you the chance to put a range of skills and scientific approaches to the test.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Pathogen-gene-discovery:-Toxic-or-not?\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Pathogen-gene-discovery:-Toxic-or-not?\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Pathogen-gene-discovery:-Toxic-or-not?\">Pathogen gene discovery: Toxic or not?<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Pathogen-gene-discovery:-Toxic-or-not?\" aria-hidden=\"true\">\n                    <p>Stipend amount &#8211; up to $10,000 for one year<\/p>\n<p><strong>Project outline:\u00a0<\/strong>Looking for a project that combines bioinformatics and molecular biology? You could play an important part in identifying and testing potential new toxins of major crop pathogens as part of your Honours project. Gene expression during plant infection will be studied and proteins purified to determine crop toxicity.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n        \n<\/mimas-block>\n\n<mimas-block \n        block-name=\"accordion\"\n        role=\"complementary\"\n        aria-label=\"Accordion content\"\n        data-segment=\"all\">\n\n                \n\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Get-smart-with-wheat-breeding\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Get-smart-with-wheat-breeding\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Get-smart-with-wheat-breeding\">Get smart with wheat breeding<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Get-smart-with-wheat-breeding\" aria-hidden=\"true\">\n                    <p>Stipend amount<em>\u00a0&#8211;\u00a0<\/em>up to $10,000 for one year<\/p>\n<p><strong>Project outline:<u>\u00a0<\/u><\/strong>Want to play a role in crop improvement? This project could the one you are looking for. We are looking for someone to develop and test new genetic markers closely linked to genes for wheat disease resistance. Fluorescence-based PCR techniques will be used to screen markers on wheat varieties. Useful markers can then be passed to breeding companies for identifying disease resistance in commercial germplasm.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Up-or-down?-Explore-gene-expression\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Up-or-down?-Explore-gene-expression\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Up-or-down?-Explore-gene-expression\">Up or down? Explore gene expression<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Up-or-down?-Explore-gene-expression\" aria-hidden=\"true\">\n                    <p>Stipend amount<em>\u00a0&#8211;\u00a0<\/em>up to $10,000 for one year<\/p>\n<p><strong>Project outline:<u>\u00a0<\/u><\/strong>Many fungal genes play a role in crop disease, such as those encoding toxins or enzymes for degrading plant cells and overcoming plant defences. This project asks you to examine the expression levels of the pathogenicity genes of a major wheat fungal pathogen. You will be using a range of molecular biology techniques such as RNA isolation, cDNA synthesis and qPCR.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-What's-in-a-number?-Exploring-fungal-chromosomes\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"What's-in-a-number?-Exploring-fungal-chromosomes\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-What's-in-a-number?-Exploring-fungal-chromosomes\">What&#8217;s in a number? Exploring fungal chromosomes<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"What's-in-a-number?-Exploring-fungal-chromosomes\" aria-hidden=\"true\">\n                    <p>Stipend amount<em>\u00a0&#8211; <\/em>up to\u00a0$10,000 for one year<\/p>\n<p><strong>Project outline:\u00a0<\/strong>Chromosome size and number variations have been reported for fungal species, and this variation is known to play an important role in the evolution of virulence. When you take on this project you will be investigating the genome structure of a major fungal wheat pathogen, as well as the chromosomal location of pathogenicity genes. Your molecular biology skills will be put to good use as you work to uncover insights into pathogen genome plasticity.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Barley-net-blotch-epidemiology,-population-genetics-and-gene-flow\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Barley-net-blotch-epidemiology,-population-genetics-and-gene-flow\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Barley-net-blotch-epidemiology,-population-genetics-and-gene-flow\">Barley net blotch epidemiology, population genetics and gene flow<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Barley-net-blotch-epidemiology,-population-genetics-and-gene-flow\" aria-hidden=\"true\">\n                    <p>Stipend amount &#8211; up to $10,000 for one year<\/p>\n<p><strong>Project Outline:\u00a0<\/strong>This project aims to examine the relative diversity of Net blotch isolates in Western Australia and the genetic structure of populations and their origin. You will be doing this through population genetics and gene flow analyses.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Fluorescent-labelling-of-Botrytis-and-histology-of-plant-infection-in-pulses\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Fluorescent-labelling-of-Botrytis-and-histology-of-plant-infection-in-pulses\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Fluorescent-labelling-of-Botrytis-and-histology-of-plant-infection-in-pulses\">Fluorescent labelling of Botrytis and histology of plant infection in pulses<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Fluorescent-labelling-of-Botrytis-and-histology-of-plant-infection-in-pulses\" aria-hidden=\"true\">\n                    <p>Stipend amount &#8211; available on enquiry<\/p>\n<p><strong>Project outline:\u00a0<\/strong><em>Botrytis cinerea<\/em>\u00a0and\u00a0<em>B. fabae<\/em>\u00a0infect faba beans and lentils to cause the major plant disease, Chocolate Spot and Botrytis Grey Mould, respectively. You will use existing protocols and develop new ones, for the production of transgenic fungal isolates that produce Green Fluorescent Protein (GFP). GFP-labelled fungi will then be used to observe patterns of plant colonisation by fungi during infection, using confocal microscopy.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Genetic-mechanisms-of-resistance-and-virulence-of-Ascochyta-blight-in-chickpea\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Genetic-mechanisms-of-resistance-and-virulence-of-Ascochyta-blight-in-chickpea\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Genetic-mechanisms-of-resistance-and-virulence-of-Ascochyta-blight-in-chickpea\">Genetic mechanisms of resistance and virulence of Ascochyta blight in chickpea<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Genetic-mechanisms-of-resistance-and-virulence-of-Ascochyta-blight-in-chickpea\" aria-hidden=\"true\">\n                    <p>Stipend amount &#8211; available on enquiry<\/p>\n<p><strong>Project outline:\u00a0<\/strong>Ascochyta blight is a major plant disease of chickpea and we have identified several candidate virulence genes in the causal organism,\u00a0<em>Ascochyta rabiei<\/em>. You will develop knockout fungal strains for three candidate effector genes and characterise the mutant strains using plant pathology assays, and light and confocal microscopy.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Secondary-metabolite-clusters-of-Botrytis-and-plant-infection-in-pulses\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Secondary-metabolite-clusters-of-Botrytis-and-plant-infection-in-pulses\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Secondary-metabolite-clusters-of-Botrytis-and-plant-infection-in-pulses\">Secondary metabolite clusters of Botrytis and plant infection in pulses<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Secondary-metabolite-clusters-of-Botrytis-and-plant-infection-in-pulses\" aria-hidden=\"true\">\n                    <p>Stipend amount &#8211; available on enquiry<\/p>\n<p><strong>Project outline:\u00a0<\/strong><em>Botrytis cinerea<\/em>\u00a0and\u00a0<em>B. fabae<\/em>\u00a0infect faba beans and lentils to cause the major plant diseases and there are differences between pathogen species in the complement of secondary metabolites produced. You will use gene knockout methods to manipulate the production of specific secondary metabolite synthetic genes to determine their role in pathogenicity. Microscopy will also be used to observe differences in the mode of infection for Botrytis in which specific secondary metabolite genes have been disabled.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Fluorescent-fungi-to-visualise-the-progression-of-the-net-blotch-diseases-of-barley\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Fluorescent-fungi-to-visualise-the-progression-of-the-net-blotch-diseases-of-barley\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Fluorescent-fungi-to-visualise-the-progression-of-the-net-blotch-diseases-of-barley\">Fluorescent fungi to visualise the progression of the net blotch diseases of barley<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Fluorescent-fungi-to-visualise-the-progression-of-the-net-blotch-diseases-of-barley\" aria-hidden=\"true\">\n                    <p><strong>Project outline:<\/strong>\u00a0The devastating fungi causing net blotch of barley have two faces, the net type and the spot type. Using genetically engineered fluorescent fungi and confocal microscopy, in this project, you will investigate from a histological perspective how these two organisms infect the plant and how the plant may stop them.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Seed-and-spores:-Investigating-fungal-disease-on-wheat-grain-quality-and-seed-borne-transmission\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Seed-and-spores:-Investigating-fungal-disease-on-wheat-grain-quality-and-seed-borne-transmission\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Seed-and-spores:-Investigating-fungal-disease-on-wheat-grain-quality-and-seed-borne-transmission\">Seed and spores: Investigating fungal disease on wheat grain quality and seed-borne transmission<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Seed-and-spores:-Investigating-fungal-disease-on-wheat-grain-quality-and-seed-borne-transmission\" aria-hidden=\"true\">\n                    <p><strong>Project outline:<\/strong>\u00a0This project will assess the extent of yellow spot disease infection in wheat grain. The extent of seed discolouration, deformation and presence of phenolic compounds will be investigated. Infected seeds will be sown and the transmission of disease from grain to germinated seedlings will be assessed.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n                    <div class=\"accordion\" aria-labelledby=\"accordion-title-Keeping-it-green---Investigating-the-physiological-impact-of-disease-in-exotic-wheat-landraces\">\n            <button type=\"button\" class=\"accordion__heading\" aria-controls=\"Keeping-it-green---Investigating-the-physiological-impact-of-disease-in-exotic-wheat-landraces\" aria-expanded=\"false\">\n            <div class=\"title\" id=\"accordion-title-Keeping-it-green---Investigating-the-physiological-impact-of-disease-in-exotic-wheat-landraces\">Keeping it green &#8211; Investigating the physiological impact of disease in exotic wheat landraces<\/div>\n            <div class=\"icon\"><\/div>\n        <\/button>\n        <div class=\"accordion__content\" id=\"Keeping-it-green---Investigating-the-physiological-impact-of-disease-in-exotic-wheat-landraces\" aria-hidden=\"true\">\n                    <p><strong>Project outline:<\/strong>\u00a0This project will analyse physiological traits in genetically diverse wheat against the damaging fungal disease yellow spot. Microscopy and chlorophyll fluorescence imaging will be used to measure disease impact on photosynthesis. This project will involve lab and glasshouse-based work.<\/p>\n\n        \n                            \n                    <\/div>\n<\/div>\n        \n<\/mimas-block>\n\n    <mimas-block \n        block-name=\"articles\"\n        role=\"complementary\"\n        aria-label=\"articles content\"\n        data-segment=\"all\"\n        data-bg=\"gray\">\n\n        \n\n                    <div class=\"article\">\n                                                                \n                <img decoding=\"async\" src=\"https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/DSC_9441_1500-1-740x370-3-150x150.jpg\"\n                     alt=\"Chemistry Honours Projects\"\n                     srcset=\"https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/DSC_9441_1500-1-740x370-3-150x150.jpg 150w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/DSC_9441_1500-1-740x370-3.jpg 740w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/DSC_9441_1500-1-740x370-3.jpg 740w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/DSC_9441_1500-1-740x370-3.jpg 740w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/DSC_9441_1500-1-740x370-3.jpg 740w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/DSC_9441_1500-1-740x370-3.jpg 740w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/DSC_9441_1500-1-740x370-3-480x240.jpg 480w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/DSC_9441_1500-1-740x370-3.jpg 740w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/DSC_9441_1500-1-740x370-3.jpg 740w\"\n                     sizes=\"(min-width: 2560px) 2560px, (min-width: 1920px) 1920px, (min-width: 1440px) 1440px, (min-width: 1024px) 1024px, (min-width: 768px) 768px\" loading=\"lazy\">\n\n                <article class=\"article__content\">\n                    \n                                            <h2 class=\"h3\">Chemistry Honours Projects<\/h2>\n                    \n                                            <p><p>Download the full list of <a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/2021_Honours-Project-Booklet_Chemistry-compressed.pdf\">Chemistry honours projects available for 2021 [.pdf 972kB]<\/a><\/p>\n<\/p>\n                    \n                                \n                        <\/article>\n            <\/div>\n        <\/mimas-block>\n\n\n    <mimas-block \n        block-name=\"articles\"\n        role=\"complementary\"\n        aria-label=\"articles content\"\n        data-segment=\"all\"\n        data-bg=\"gray\">\n\n        \n\n                    <div class=\"article\">\n                                                                \n                <img decoding=\"async\" src=\"https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/Food_Science2000x1333-4-aspect-ratio-2-1-2-150x150.jpg\"\n                     alt=\"Food and Agriculture Honours Projects\"\n                     srcset=\"https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/Food_Science2000x1333-4-aspect-ratio-2-1-2-150x150.jpg 150w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/Food_Science2000x1333-4-aspect-ratio-2-1-2-740x370.jpg 740w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/Food_Science2000x1333-4-aspect-ratio-2-1-2-768x444.jpg 768w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/Food_Science2000x1333-4-aspect-ratio-2-1-2-1000x500.jpg 1000w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/Food_Science2000x1333-4-aspect-ratio-2-1-2.jpg 1198w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/Food_Science2000x1333-4-aspect-ratio-2-1-2.jpg 1198w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/Food_Science2000x1333-4-aspect-ratio-2-1-2-480x240.jpg 480w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/Food_Science2000x1333-4-aspect-ratio-2-1-2-1198x630.jpg 1198w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/Food_Science2000x1333-4-aspect-ratio-2-1-2.jpg 1198w\"\n                     sizes=\"(min-width: 2560px) 2560px, (min-width: 1920px) 1920px, (min-width: 1440px) 1440px, (min-width: 1024px) 1024px, (min-width: 768px) 768px\" loading=\"lazy\">\n\n                <article class=\"article__content\">\n                    \n                                            <h2 class=\"h3\">Food and Agriculture Honours Projects<\/h2>\n                    \n                                            <p><p><span style=\"font-size: 12pt;color: #000000\">Download the full list of <a style=\"color: #000000\" href=\"https:\/\/acrobat.adobe.com\/id\/urn:aaid:sc:AP:4e4dd5fc-84f0-4189-9d3c-3cd3e44a6ac8\">Food and Technology Honours Projects for 2026 Here\u00a0<\/a><\/span><\/p>\n<div><span style=\"font-size: 12pt;color: #000000\">The 2026 Agriculture Honours projects are currently being updated and will be available shortly<\/span><\/div>\n<\/p>\n                    \n                                \n                        <\/article>\n            <\/div>\n        <\/mimas-block>\n\n\n    <mimas-block \n        block-name=\"articles\"\n        role=\"complementary\"\n        aria-label=\"articles content\"\n        data-segment=\"all\"\n        data-bg=\"gray\">\n\n        \n\n                    <div class=\"article\">\n                                                                \n                <img decoding=\"async\" src=\"https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/environment-and-agriculture-2000x1000px-2-1000x500-1-3-150x150.jpg\"\n                     alt=\"Ecology\"\n                     srcset=\"https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/environment-and-agriculture-2000x1000px-2-1000x500-1-3-150x150.jpg 150w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/environment-and-agriculture-2000x1000px-2-1000x500-1-3-740x370.jpg 740w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/environment-and-agriculture-2000x1000px-2-1000x500-1-3-768x384.jpg 768w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/environment-and-agriculture-2000x1000px-2-1000x500-1-3.jpg 1000w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/environment-and-agriculture-2000x1000px-2-1000x500-1-3.jpg 1000w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/environment-and-agriculture-2000x1000px-2-1000x500-1-3.jpg 1000w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/environment-and-agriculture-2000x1000px-2-1000x500-1-3-480x240.jpg 480w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/environment-and-agriculture-2000x1000px-2-1000x500-1-3.jpg 1000w, https:\/\/www.curtin.edu.au\/students\/wp-content\/uploads\/sites\/8\/2026\/01\/environment-and-agriculture-2000x1000px-2-1000x500-1-3.jpg 1000w\"\n                     sizes=\"(min-width: 2560px) 2560px, (min-width: 1920px) 1920px, (min-width: 1440px) 1440px, (min-width: 1024px) 1024px, (min-width: 768px) 768px\" loading=\"lazy\">\n\n                <article class=\"article__content\">\n                    \n                                            <h2 class=\"h3\">Ecology<\/h2>\n                    \n                                            <p><p>Download the below PDFs to view more about each project.<\/p>\n<p>&nbsp;<\/p>\n<ul>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/Camera-trap-catches-in-relation-to-vegetatoin-and-habitat-structure.pdf\">Camera trap catches in relation to vegetation and habitat structure [.pdf 275kB]\u00a0<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/Characterising-the-mineral-and-organic-composition-of-rangeland-soils.pdf\">Characterising the mineral and organic composition of rangeland soils with FT-IR spectroscopy. [.pdf 130kB] <\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/Characterising-the-spatial-temporal-variation-of-soil-respiration-in-native-forests.pdf\">Characterising the spatial-temporal variation of soil respiration in native forests [.pdf 182kB]\u00a0<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/Comparative-ventilatory-physiology-of-marsupials.pdf\">Comparative ventilatory physiology of marsupials [.pdf 43kB]\u00a0<\/a><\/li>\n<li><a href=\"http:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2022\/10\/Discovery-and-development-of-new-herbicides.pdf\">Discovery and development of new herbicides [.pdf 129kB]<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/Do-quail-and-pigeons-disperse-seeds-of-the-shrub-Stachystemon-that-only.pdf\">Do quail and pigeons disperse seeds of the shrub, Stachystemon, that only grows under isolated trees at Eneabba? [.pdf 557kB]\u00a0<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/Fractionating-soils-to-characterise-their-mineral-organic-composition.pdf\">Fractionating soils to characterise their mineral-organic composition [.pdf 143kB] <\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2023\/09\/SWWA-Holocene-mammals.pdf\">Interpreting Holocene mammal biodiversity and abundances in the in the Cape Leeuwin-Naturaliste region [.pdf 131kB]<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/Invertebrate-biodiversity-within-Perths-lentic-freshwater-systems.pdf\">Invertebrate biodiversity within Perth&#8217;s lentic freshwater systems [.pdf 247kB]\u00a0<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/microplastics-in-marine-and-terrestrial-environments-ecology-hons-project.pdf\">Microplastics in marine and terrestrial environments [.pdf 310kB]\u00a0<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/Nesting-behaviour-and-spawning-periodicty-of-scalyfins.pdf\">Nesting behaviour and spawning periodicity of scalyfins (genus\u00a0<em>Parma<\/em>) [.pdf 132kB]\u00a0<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/Of-metals-and-birds.pdf\">Of metals and birds [.pdf 142kB]\u00a0<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/Oxidative-damage-and-metabolic-function-during-cryopreservation-of-endangered.pdf\">Oxidative damage and metabolic function during cryopreservation of endangered plant species [.pdf 114kB]\u00a0<\/a><\/li>\n<li><a href=\"http:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2022\/10\/Patterns-of-activity-of-echidnas-in-the-West-Australian-wheatbelt.pdf\">Patterns of activity of echidnas in the West Australian wheatbelt [.pdf 153 kB]<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2021\/11\/Rhizosphere-profiling-using-deep-sequencing.pdf\">Rhizosphere profiling using deep sequencing [.pdf 260kB]\u00a0<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2024\/05\/BilbyBurrowsCaneToads.pdf\">Could bilbies facilitate the cane toad invasion? [.pdf 169kB]<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2024\/10\/Operation-Toad-Surveillance-which-method-of-cane-toad-detection-is-most-effective-and-efficient.pdf\">Operation Toad Surveillance: which method of cane toad detection is most effective and efficient? (Honours Project) [.pdf 291kB]<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2024\/10\/Non-human-commuters-Predicting-species-movement-ability-and-occurrence-in-urban-environments-.pdf\">Non-human commuters Predicting species movement ability and occurrence in urban environments (Honours Project) [.pdf 354kB]<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2024\/10\/Saving-our-trees-improving-methods-of-detecting-and-trapping-the-tiny-Polyphagous-Shothole-beetle.pdf\">Saving our trees improving methods of detecting and trapping the tiny Polyphagous Shothole beetle (Honours Project) [.pdf 350kB] <\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2024\/10\/Determining-any-Environmental-Concerns-with-Glycine.pdf\">Determining any Environmental Concerns with Glycine (Honours Project) [.pdf 115kB<\/a><\/li>\n<li><a href=\"https:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2024\/10\/Can-Effluent-Glycine-Solution-be-Used-to-Grow-Plants.pdf\">Can Effluent Glycine Solution be Used to Grow Plants? (Honours Project) [.pdf 87kB]<\/a><\/li>\n<li><a href=\"https:\/\/acrobat.adobe.com\/id\/urn:aaid:sc:AP:12c51239-6d2f-43a8-9afd-68f879dbf802\">Metals Contamination in Varanus Lizards (Thailand)<\/a><\/li>\n<li><a href=\"https:\/\/acrobat.adobe.com\/id\/urn:aaid:sc:AP:56b0eabd-f8a1-4b16-85fd-699af494d884\">Timeline of Metal Contamination in Eggshells<\/a><\/li>\n<li><a href=\"https:\/\/acrobat.adobe.com\/id\/urn:aaid:sc:AP:b8f065ff-a494-44fc-93b4-adab3e6ea1fe\">Evaporative water loss control during hibernation\u00a0<\/a><\/li>\n<li><a href=\"https:\/\/acrobat.adobe.com\/id\/urn:aaid:sc:AP:fa6be59c-5c07-4e28-9fc5-e1492c48b367\">Using eDNA to examine the interactions between flowers and insects<\/a><\/li>\n<li><a href=\"http:\/\/www.curtin.edu.au\/wp-content\/uploads\/sites\/8\/2022\/10\/Breakdown-of-agrichemicals-inside-crop-plants.pdf\">Breakdown of agrichemicals inside crop plants [.pdf 91 kB]<\/a><\/li>\n<li><a href=\"https:\/\/acrobat.adobe.com\/id\/urn:aaid:sc:AP:ec5f2b7e-0119-40c1-a5e8-fedbee5361a8\">Indirect impacts of climate change and marine heatwaves on temperate seaweed forests<\/a><\/li>\n<\/ul>\n<\/p>\n                    \n                                \n                        <\/article>\n            <\/div>\n        <\/mimas-block>\n\n\n\n<p><\/p>\n","protected":false},"excerpt":{"rendered":"<p>The current honours projects for the School of Molecular and Life Sciences are listed below. [&hellip;]<\/p>\n","protected":false},"author":369,"featured_media":0,"parent":6440,"menu_order":4,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"_oasis_is_in_workflow":0,"_oasis_original":0,"_oasis_task_priority":"","footnotes":""},"tags":[],"class_list":["post-6474","page","type-page","status-publish","hentry"],"acf":[],"publishpress_future_action":{"enabled":false,"date":"2026-06-06 20:51:10","action":"change-status","newStatus":"draft","terms":[],"taxonomy":"post_tag","extraData":[]},"publishpress_future_workflow_manual_trigger":{"enabledWorkflows":[]},"_links":{"self":[{"href":"https:\/\/www.curtin.edu.au\/students\/wp-json\/wp\/v2\/pages\/6474","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.curtin.edu.au\/students\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.curtin.edu.au\/students\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.curtin.edu.au\/students\/wp-json\/wp\/v2\/users\/369"}],"replies":[{"embeddable":true,"href":"https:\/\/www.curtin.edu.au\/students\/wp-json\/wp\/v2\/comments?post=6474"}],"version-history":[{"count":5,"href":"https:\/\/www.curtin.edu.au\/students\/wp-json\/wp\/v2\/pages\/6474\/revisions"}],"predecessor-version":[{"id":42397,"href":"https:\/\/www.curtin.edu.au\/students\/wp-json\/wp\/v2\/pages\/6474\/revisions\/42397"}],"up":[{"embeddable":true,"href":"https:\/\/www.curtin.edu.au\/students\/wp-json\/wp\/v2\/pages\/6440"}],"wp:attachment":[{"href":"https:\/\/www.curtin.edu.au\/students\/wp-json\/wp\/v2\/media?parent=6474"}],"wp:term":[{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/www.curtin.edu.au\/students\/wp-json\/wp\/v2\/tags?post=6474"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}