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34 results on '"Puccinia punctiformis"'

1. Scaling use of the rust fungus Puccinia punctiformis for biological control of Canada thistle (Cirsium arvense (L.) Scop.): First report on a U.S. statewide effort

Author

Dan W. Bean, Kristi Gladem, Karen Rosen, Alexander Blake, Robert E. Clark, Caitlin Henderson, John Kaltenbach, Joel Price, Emily L. Smallwood, Dana K. Berner, Stephen L. Young, and Robert N. Schaeffer

Subjects
Biological control, Canada thistle, Cirsium arvense, Puccinia punctiformis, Systemic disease, Thistle decline, Agriculture, Biology (General), QH301-705.5
Abstract

Canada thistle (Cirsium arvense (L.) Scop., CT) is one of the worst weeds threatening temperate regions of the world. A host-specific rust fungus, Puccinia punctiformis (F. Strauss) Rohl., is known to cause systemic disease of CT, ultimately killing individuals and reducing stand densities. In 2013, it was demonstrated that fall inoculation of rosettes with coarsely ground leaves bearing P. punctiformis telia can successfully initiate epiphytotics. In the same year, a cooperative project between the Colorado Department of Agriculture and United States Department of Agriculture was initiated, in which CT patches across the state of Colorado (USA) were inoculated and tracked over subsequent years for changes in stem density. Here, we report our findings from 8 years (2014–2021) of monitoring effort. At most sites (N = 87), CT stem densities declined, from a mean (±SE) of 87.9 (±6.5) stems to 44.7 (±4.2). These declines however were spatially-autocorrelated, and likely attributable to local growing conditions, as mean annual daily maximum temperature and standard deviation of elevation, as well as climatic conditions around the times of both treatment and monitoring, were found to be important predictors of CT decline. Further, we observed that the amount of inoculum deployed, timing since last release, and method in which it was spread locally at a site were also associated with the magnitude of CT stem decline. These results are indicative of the value of P. punctiformis as a CT biological control agent.

Published
2024
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3. Impact of Puccinia punctiformis on Cirsium arvense performance in a simulated crop sequence

Author

Daniel Chichinsky, Christian Larson, Jed Eberly, Fabian D. Menalled, and Tim Seipel

Subjects
crop competition, Puccinia punctiformis, agriculture, integrated weed management (IWM), Canada thistle, thistle rust, Agriculture, Plant culture, SB1-1110
Abstract

Cirsium arvense (Canada thistle) is a perennial weed that causes significant economic losses in agriculture. An extensive rhizomatous root system makes C. arvense difficult to manage, particularly in agricultural systems that use tillage as a primary management tool. There is a need for the development of integrated weed management toolsets that include C. arvense biological controls. Puccinia punctiformis (thistle rust) is an autoecious fungal pathogen that systemically infects C. arvense, with the potential to reduce host vigor over time. The goal of this study was to integrate the P. punctiformis biocontrol with a simulated annual cropping sequence in a greenhouse environment and evaluate C. arvense’s above-and belowground biomass production, and its competitive ability. Repeated P. punctiformis inoculations produced systemically infected C. arvense stems in greenhouse pots over time. Cirsium arvense that was inoculated with P. punctiformis had 1.6 grams/pot (p = 0.0019) less aboveground biomass and 5.6 grams/pot (p< 0.001) less belowground biomass, compared to the non-inoculated (control). Puccinia punctiformis and crop competition interacted additively to lower aboveground (p

Published
2023
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4. Scaling use of the rust fungus Puccinia punctiformis for biological control of Canada thistle (Cirsium arvense (L.) Scop.): First report on a U.S. statewide effort.

Author

Bean, Dan W., Gladem, Kristi, Rosen, Karen, Blake, Alexander, Clark, Robert E., Henderson, Caitlin, Kaltenbach, John, Price, Joel, Smallwood, Emily L., Berner, Dana K., Young, Stephen L., and Schaeffer, Robert N.

Subjects
*RUST fungi, *PUCCINIA, *BIOLOGICAL pest control agents, *STRIPE rust, *AGRICULTURAL policy
Abstract

• Canada thistle is one of the worst weeds threatening temperate regions of the world. • Puccinia punctiformis is known to cause systemic disease of Canada thistle, ultimately killing individuals and reducing stand densities. • A statewide biological control program was developed, in which telia were harvested and released at invaded sites with subsequent population monitoring. • Canada thistle stands exhibited significant declines following treatment, however these declines were associated with local site conditions and method of treatment. Canada thistle (Cirsium arvense (L.) Scop., CT) is one of the worst weeds threatening temperate regions of the world. A host-specific rust fungus, Puccinia punctiformis (F. Strauss) Rohl., is known to cause systemic disease of CT, ultimately killing individuals and reducing stand densities. In 2013, it was demonstrated that fall inoculation of rosettes with coarsely ground leaves bearing P. punctiformis telia can successfully initiate epiphytotics. In the same year, a cooperative project between the Colorado Department of Agriculture and United States Department of Agriculture was initiated, in which CT patches across the state of Colorado (USA) were inoculated and tracked over subsequent years for changes in stem density. Here, we report our findings from 8 years (2014–2021) of monitoring effort. At most sites (N = 87), CT stem densities declined, from a mean (±SE) of 87.9 (±6.5) stems to 44.7 (±4.2). These declines however were spatially-autocorrelated, and likely attributable to local growing conditions, as mean annual daily maximum temperature and standard deviation of elevation, as well as climatic conditions around the times of both treatment and monitoring, were found to be important predictors of CT decline. Further, we observed that the amount of inoculum deployed, timing since last release, and method in which it was spread locally at a site were also associated with the magnitude of CT stem decline. These results are indicative of the value of P. punctiformis as a CT biological control agent. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Puccinia punctiformis as a biocontrol agent for Cirsium arvense: effect of biotic and abiotic factors on success of infection : A thesis submitted in partial fulfilment of the requirements for the Degree of Master of Applied Science at Lincoln University

Author

Kentjens, Wendy Maria Henrica

Subjects
Cirsium arvense, Californian thistle, creeping thistle, Canada thistle, Puccinia punctiformis, endophytes, biocontrol, endophyte-host relationships, host-pathogen relationships, endophyte-pathogen relationships, endophyte dynamics, qPCR (quantitative polymerase chain reaction), fungal biocontrol, ANZSRC::3107 Microbiology, ANZSRC::300409 Crop and pasture protection (incl. pests, diseases and weeds), ANZSRC::410302 Biological control
Abstract

Californian thistle (Cirsium arvense L. (Scop.)) is a weed in pastures and cropping systems. The fungal biocontrol agent Puccinia punctiformis (F. Strauss) Röhl. performs inconsistently on C. arvense. P. punctiformis establishment and control of C. arvense may be attributable to differing plant endophytic populations in various environments. Therefore, a study on endophytic populations within leaf, stem, and root tissue of C. arvense was undertaken with seasonal dynamics and location considered. Ninety-one endophytic genera, of which 68 not previously known to be associated with C. arvense, were ascertained in this study by culturing methods. To determine the identity of these cultures, PCR with fungal specific primers was performed, followed by sequencing and identification of the PCR products. Endophytic communities of stems and leaves of C. arvense are dynamic, with changes in community composition occurring over seasons. In autumn, a significant increase in leaf endophytic diversity occurred, which may be affected by C. arvense shoots commencing die-off. Root endophytic communities were stable, with no significant changes in endophytic community composition nor diversity occurring. Leaf endophytic diversity was comparable between sites, but community composition differed. This study shows that endophytic communities are dynamic being season, site, and tissue dependent. To enable quantification of P. punctiformis in samples, several comparisons were undertaken to finetune the qPCR assay and determine its robustness. Results were categorised in the following concentration bands: P. punctiformis absent; low concentration present (100 ng/µL). An efficiency correction would be applied to add to the quality of results obtained. To determine the effect of endophytes on P. punctiformis urediniospores infection, two genotypes of C. arvense were grown in either in a controlled environment glasshouse, as potted plants in a potting mix media, or under natural, field conditions in soil. Establishment of P. punctiformis and endophytic communities were compared between genotypes (G27 and F1) and growing conditions (glasshouse and field) by visual estimation as well as quantitative PCR for the presence of P. punctiformis. The number of endophytic genera as well as community composition were determined prior to trial commencement and on completion. Six weeks post-inoculation, G27 plants had higher levels of disease expression in the field compared to plants of the same genotype in the glasshouse (70% vs 20%, 23 vs 10 ng/µL, respectively; P

Published
2023

6. Distribution of Puccinia punctiformis in above-ground tissue of Cirsium arvense (Californian thistle)

Author

Seona Casonato, Michael G. Cripps, and Caitlin Henderson

Subjects
0106 biological sciences, food.ingredient, fungi, food and beverages, 04 agricultural and veterinary sciences, Horticulture, Biology, 01 natural sciences, 010602 entomology, Above ground, food, Insect Science, Botany, 040103 agronomy & agriculture, Thistle, 0401 agriculture, forestry, and fisheries, Natural enemies, Cirsium arvense, Puccinia punctiformis, Agronomy and Crop Science
Abstract

Cirsium arvense (Californian thistle) is a problematic weed in agricultural systems throughout New Zealand and the rust fungus Puccinia punctiformis is a potential biological control agent for this weed. Puccinia punctiformis can systemically infect thistles but the movement of the pathogen in planta is not fully understood. This research determined the level of infection in planta caused by P. punctiformis at a single time point. The concentration of P. punctiformis DNA in planta was determined to ascertain the location of the fungus within naturally field-infected C. arvense. Quantitative polymerase chain reaction was undertaken on above-ground symptomatic and asymptomatic C. arvense tissue at various locations within leaves (top, middle and bottom) and the main stem. All C. arvense shoots had detectable amounts of P. punctiformis but the concentration was 100× greater in symptomatic compared with asymptomatic shoots. In general, the concentration of fungus progressed up the leaves with a significant effect between locations (P

Published
2019
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7. How to find a needle in a haystack - host plant finding of the weevil Ceratapion onopordi.

Author

Müller, Esther and Wolfgang Nentwig

Subjects
*AGRICULTURAL pests, *PESTS, *RUST fungi, *PHYTOPATHOGENIC fungi, *CURCULIONIDAE
Abstract

The weevil Ceratapion onopordi Kirby (Coleoptera: Apionidae) shows a mutualistic interaction with the rust fungus Puccinia punctiformis (Str.) Röhl (Pucciniaceae). One of the weevil's host plants, the thistle Cirsium arvense (L.) Scop. (Asteraceae), is also the host of the rust fungus. It has been argued that weevils prefer rust-infected thistle shoots for egg deposition and consequently should be able to detect such shoots. Olfactory, visual, and gustatory orientation was tested using a four-chamber olfactometer, a visual testing arena, and feeding choice tests. Whereas the weevils used olfactory cues to find their host plants, visual orientation does not seem to be important. Rust-infected thistle shoots were not preferred over healthy shoots in any of the tests. We conclude that host plants infected with rust fungi, which are rather rare in the field, appear to be found more or less by chance. [ABSTRACT FROM AUTHOR]

Published
2011
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8. Establishing systemic rust infections in Cirsium arvense in the field.

Author

Wandeler, Heiri, Nentwig, Wolfgang, and Bacher, Sven

Subjects
*CANADA thistle, *THISTLES, *DISEASE vectors, *BEETLES, *PUCCINIA, *ONOPORDUM, *PLANT shoots, *INSECT populations, *INSECT diseases
Abstract

An existing method to induce systemic rust infections in creeping thistles (Cirsium arvense) using an insect vector, the weevil Ceratapion onopordi, was successfully applied in the field. Urediniospores of Puccinia punctiformis were experimentally transmitted to naturally grown thistles, to our knowledge for the first time resulting in systemically infected shoots in an established thistle population. [ABSTRACT FROM AUTHOR]

Published
2008
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9. Neighbourhood of host plants influences oviposition decisions of a stem-boring weevil.

Author

Moravie, Marie-Agnes, Borer, Matthias, and Bacher, Sven

Subjects
HOST plants, INSECT-plant relationships, AGRICULTURAL pests, PLANT diseases
Abstract

Copyright of Basic & Applied Ecology is the property of Urban & Fischer Verlag and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2006
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10. Effects of two pathogens on the performance of Cirsium arvense in a successional fallow.

Author

Kluth, S., Kruess, A., and Tscharntke, T.

Subjects
*PATHOGENIC microorganisms, *CANADA thistle, *CIRSIUM, *FALLOWING, *BIOLOGICAL weed control, *WEED control
Abstract

K luth S, K ruess A & T scharntke T (2005) Effects of two pathogens on the performance of Cirsium arvense in a successional fallow. Weed Research 45, 261–269. Biological control of weeds by natural antagonists is of increasing interest. To reduce densities of the weed Cirsium arvense (creeping thistle) in a successional fallow, we applied spores of two pathogens, the biotrophic rust Puccinia punctiformis and the perthotrophic Phoma destructiva, for three consecutive years individually at different dates and combined. The proportion of systemically Puccinia punctiformis-infected C. arvense was not influenced by the treatments, but local rust infection was a good predictor of systemic infection in the following season. Artificial inoculations with P. destructiva increased the incidence of this pathogen in the third year as a result of synergistic effects, when co-inoculated with P. punctiformis. Inoculations with either pathogen had little effect on C. arvense shoot density, although there were transient reductions after combined inoculations with both fungi compared with the fungicide treatment. Cirsium arvense decreased from 60% to 5% cover within 3 years, while the cover of the co-occurring fallow vegetation increased. Under field conditions, with an already high degree of natural P. punctiformis infection, the effects of inoculations of the single pathogens were minor, but reductions in shoot density after combined inoculations indicate that this inoculation may have the potential to cause a decline of this weed. [ABSTRACT FROM AUTHOR]

Published
2005
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11. Biocontrol options for Cirsium arvense with indigenous fungal pathogens.

Author

Guske, S., Schulz, B., and Boyle, C.

Subjects
*HERBICIDES, *BIOLOGICAL weed control, *CANADA thistle, *PATHOGENIC microorganisms, *POTTED plants
Abstract

As a first step in the development of a mycoherbicide for biological control of Cirsium arvense indigenous fungal pathogens that had been isolated from diseased hosts were tested both singly and in combination on potted plants under environmental conditions. Disease symptoms (necroses, chloroses and macerations) and parameters of growth and development were evaluated to determine the potential for weed control. During 1998, Phoma destructiva, Phoma hedericola, a Mycelia sterilia and Puccinia punctiformis were inoculated singly. With the exception of the obligate biotroph P. punctiformis (local infections), the single inoculations reduced the measured parameters. A combined inoculum of P. punctiformis and Ph. hedericola was less effective than Ph. hedericola alone. In 1999, Ph. hedericola, Ph. destructiva, Ph. nebulosa and the Mycelia sterila were applied both singly and as a combined inoculum. Of all the tested inocula, the mixture of four pathogens had the greatest potential for biocontrol, significantly reducing reproductive capacity of the plants. These results demonstrate the importance of taking advantage of synergisms in developing a mycoherbicide. [ABSTRACT FROM AUTHOR]

Published
2004
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12. Influence of mechanical cutting and pathogen application on the performance and nutrient storage of Cirsium arvense.

Author

Kluth, Stephanie, Kruess, Andreas, and Tscharntke, Teja

Subjects
*PLANT material cutting, *PUCCINIA, *THISTLES
Abstract

Summary 1. In order to develop an effective biological control technique, the influence of mechanical and pathogen treatments on performance and nutrient storage of the weed creeping thistle Cirsium arvense was studied over a 2-year period. To our knowledge, this is the first study to evaluate the effect of a combination of cutting and application of the rust Puccinia punctiformis as a possible biocontrol organism on thistles. 2. We conducted a complete two-factorial design using potted plants, with the application of the rust and cutting of thistles as the treatment factors. Treatments were applied once every year in June. 3. Inoculation reduced above-ground biomass in the first year. First year cutting reduced the number of thistle shoots, but stimulated compensatory growth with an increased growth rate and biomass. Only a second year cutting treatment significantly reduced above- and below-ground biomass, despite an increased growth rate. 4. The number of flower heads was strongly reduced by both cutting and combined treatments. The proportion of fertile flower heads was increased by cutting, whereas the combination treatment strongly reduced it. 5. Analysing storage nutrients, starch concentrations did not differ among treatments. Cutting reduced sugar concentrations, but pathogen infection tended to increase concentrations, resulting in significant interaction effects. Cutting also reduced below-ground carbon concentrations, but the carbon : nitrogen ratio was not influenced. 6. Synthesis and applications. The traditional mechanical technique of cutting was shown to be effective in reducing plant reproductive success and concentration of storage nutrients. Additional infection with a plant pathogen further restricted sexual reproduction, indicating that combined treatments may be more effective for biological control of perennial weed species. Whilst further studies are needed to establish P. punctiformis as a mycoherbicide, some synergism between repeated... [ABSTRACT FROM AUTHOR]

Published
2003
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13. Insects as vectors of plant pathogens: mutualistic and antagonistic interactions.

Author

Kluth, Stephanie, Kruess, Andreas, and Tscharntke, Teja

Subjects
CANADA thistle, CIRSIUM, PUCCINIA, PUCCINIACEAE, INSECTS
Abstract

Interactions between plants and their herbivores and pathogens are mostly analysed separately, thereby neglecting mutualistic or antagonistic interactions between these antagonists and possible joint effects on the host. We studied interactions between the weed Cirsium arvense, the rust fungus Puccinia punctiformis and three herbivorous insects, the aphids Aphis fabae ssp. cirsiiacanthoidis and Uroleucon cirsii, and the beetle Cassida rubiginosa. All three insect species mechanically transported spore material and significantly increased rates of P. punctiformis infection in healthy thistles. The interaction between C. rubiginosa and the fungus was antagonistic. Although C. rubiginosa transferred spores, biomass of adults was significantly reduced, development of adults tended to be prolonged and mortality increased when feeding on plants infected with P. punctiformis. In contrast, the relationship between the aphid U. cirsii and P. punctiformis was mutualistic: U. cirsii profited by fungal infection and formed significantly larger colonies on fungus-infected plants. Although the differences in insect performance suggest that aphids may be better vectors than the beetle, infection rates were similar. This is the first study to demonstrate that the relationship between herbivores, which increase the dispersal of a pathogen, and the pathogen itself can be mutualistic or antagonistic, depending on the species. [ABSTRACT FROM AUTHOR]

Published
2002
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14. Mutualistic interaction between a weevil and a rust fungus, two parasites of the weed Cirsium arvense.

Author

Friedli, Jürg and Bacher, Sven

Subjects
RUST fungi, PHYTOPATHOGENIC fungi, BEETLES, CANADA thistle, CIRSIUM, APION, PUCCINIA
Abstract

We present a mutualism between a stem-boring weevil, Apion onopordi Kirby (Coleoptera: Apionidae), and a rust fungus, Puccinia punctiformis (Str.) Röhl. (Uredinales), both parasites of the creeping thistle, Cirsium arvense (L.) Scop. (Asteraceae). Females, but not males, of A. onopordi induced systemic rust infections of thistle shoots in the season after they were attacked by the weevil, indicating that insect oviposition is a crucial stage in pathogen transmission. Adult weevils emerged from systemically infected thistle shoots were heavier than weevils from healthy C. arvense shoots. Heavier females had a higher fecundity and laid larger eggs. The weevil preferred to deposit eggs in systemically rust-infected over healthy thistle shoots, which seemed to be a sub-optimal host. This is to our knowledge the first report of a mutualistic interaction between an herbivorous insect and a biotrophic plant pathogen. The mechanism responsible for the advantage of rust-infected shoots for A. onopordi causes a different outcome in other thistle herbivores, and therefore can not be explained by a general enhancement of nutritional quality in rust-infected tissue. This mutualism likely has evolved from a competitive relationship. Unlike other thistle herbivores A. onopordi seems to be better suited as mutualist for P. punctiformis because of its small impact on the host plant and its feeding niche on plant parts not directly associated with pathogen reproduction. [ABSTRACT FROM AUTHOR]

Published
2001
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20. Does transmission of the rust pathogen,Puccinia punctiformis, require stem mining vectors?

Author

Grant Edwards, Nick Waipara, Graeme W. Bourdôt, David J. Saville, Simon V. Fowler, and Michael G. Cripps

Subjects
biology, fungi, Rust (fungus), Biological pest control, Fungus, biology.organism_classification, law.invention, Transmission (mechanics), law, Insect Science, Botany, Puccinia punctiformis, Weed, Cirsium arvense, Agronomy and Crop Science, Pathogen
Abstract

Recent research in Europe has suggested that stem mining insects may be important for vectoring the pathogen Puccinia punctiformis, and largely responsible for its systemic infection in the weed, Cirsium arvense. However, here we present comparative survey data showing that the level of systemic disease is the same in Europe and New Zealand, with and without stem miners, respectively, casting doubt on the idea that these insects are necessary for transmission of the fungus.

Published
2009
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21. Establishing systemic rust infections inCirsium arvensein the field

Author

Wolfgang Nentwig, Heiri Wandeler, and Sven Bacher

Subjects
education.field_of_study, food.ingredient, biology, Weevil, Population, Rust (fungus), biology.organism_classification, Rust, food, Agronomy, Insect Science, Botany, Thistle, education, Cirsium arvense, Puccinia punctiformis, Agronomy and Crop Science, Urediniospore
Abstract

An existing method to induce systemic rust infections in creeping thistles (Cirsium arvense) using an insect vector, the weevil Ceratapion onopordi, was successfully applied in the field. Urediniospores of Puccinia punctiformis were experimentally transmitted to naturally grown thistles, to our knowledge for the first time resulting in systemically infected shoots in an established thistle population.

Published
2008
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22. Enhancing incidence of Puccinia punctiformis, through mowing, to improve management of Canada thistle (Cirsium arvense)

Author

Paul A. Backman, D.K. Berner, and A.M. Demers

Subjects
food.ingredient, food, Agronomy, Insect Science, Incidence (epidemiology), Shoot, Biological pest control, Thistle, food and beverages, Biology, Puccinia punctiformis, Cirsium arvense, Agronomy and Crop Science
Abstract

Biological control of Canada thistle using Puccinia punctiformis has been largely unsuccessful in part due to a low incidence of systemically infected shoots and heterogeneous distribution of teliospores in the soil. The present study investigated the feasibility of strategic mowing to improve incidence of systemically infected shoots, and enhance intra- and/or inter-season disease development in two unused pastures. Mid-season mowing of plots in July lead to a greater proportion of systemically infected shoots in experimental plots observed at seasons’ end compared to unmowed plots. Late-season mowing in September resulted in the highest levels of systemically infected shoots early the next summer. Over time, September mowing treatments significantly increased the proportion of systemically infected shoots compared to no mowing. The number of healthy shoots declined over time in mowed plots, whereas the number of healthy shoots in unmowed plots either increased or remained constant. These effects were observed in experimental plots in both pastures. It is proposed that mowing followed by regrowth of systemically infected shoots may help overcome the monocyclic nature of the pathogen and enhance severity of this disease.

Published
2006
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23. Biological control of Californian thistle (Cirsium arvense) with the rust fungus (Puccinia punctiformis)

Author

Henderson, Caitlin

Subjects
Puccinia punctiformis, Cirsium arvense, infection, genetic, diversity, ANZSRC::100202 Biological Control
Abstract

Cirsium arvense, commonly known as Californian thistle, is a problematic weed in New Zealand and around the world. In agricultural systems, C. arvense affects animal health and severely decreases plant yield. C. arvense is a highly invasive weed due to its creeping root system. This root system can be difficult for herbicides to control because it does not completely kill the roots, which overwinter in the soil, producing shoots in the spring. Puccinia punctiformis is a rust fungus that only infects C. arvense. P. punctiformis has the potential to be a successful biological control agent as it is already present in New Zealand and can systemically and locally infect C. arvense. The systemic infection by the rust fungus damages the roots and reduces shoot abundance in the weed. The aim of this research was to determine if the observed differences in the levels of infection in C. arvense populations within New Zealand was due to genetic differences between P. punctiformis isolates. A survey of 22 sites in the North and South Islands of New Zealand was undertaken to determine the percentage of P. punctiformis infected C. arvense shoots in a designated area. Puccinia punctiformis was found in all 22 populations surveyed and the amount of P. punctiformis infected shoots varied between all sites. The Ruakura site had the highest amount of P. punctiformis infected shoots (11.1%), which was significantly higher than 15 other sites. Genetic analysis of the P. punctiformis isolates from some of the survey sites was undertaken by PCR. Sequencing of the ITS region indicated only one isolate (Hurst) out of 11 sequenced differed genetically (6 bp substitution). Comparatively, polymorphisms were observed with RAPD amplification which indicated genetic diversity across the whole genome for samples within both the population and between populations. Quantification of P. punctiformis in planta by qPCR determined that rust levels were at higher concentrations at the top of the plant and decreased to the base. A glasshouse study was carried out to facilitate infection in order to increase the amount of inoculum for further work. No discernible infection methods were obtained. Only three out of the 32 treated plants had any infection, thus, considerable future work needs to be undertaken for a better infection method to be obtained. The study has highlighted the difficulties in dealing with P. punctiformis which infects C. arvense. Infection in the field and the glasshouse is limited and variable. The study has indicated there is genetic diversity in P. punctiformis in New Zealand which could explain the observed differences in infection of C. arvense in the field. Keywords: Puccinia punctiformis, Cirsium arvense, infection, genetic, diversity

Published
2018

24. Phylogenetic and chemo-ecological aspects affecting the host selection behaviour of the thistle tortoise beetle Cassida rubiginosa

Author

Hettiarachchi, Dilani K.

Subjects
Cardueae, host-range, conspecific cues, constitutive volatiles, centrifugal phylogeny, oviposition, feeding, insect herbivore-fungal pathogen interaction, phylogeny, herbivore-induced plant volatiles (HIPVs), Cirsium arvense, Puccinia punctiformis, Sclerotinia sclerotiorum, weed control, biological control of weeds, insect-plant interaction, insect herbivory, viability, seed, alternative host, ANZSRC::050103 Invasive Species Ecology, ANZSRC::060801 Animal Behaviour, ANZSRC::0602 Ecology
Abstract

Most species of insects are selective feeders that not only choose the plant but also choose specific plant organs. Insect host-finding behaviour involves several cues such as olfactory, visual, tactile and gustatory. The responses to these cues depend on the context in which the signals are perceived and on the host-insect system. Knowing the process of host-finding behaviour of insects is important for management practices. The oligophagous, chrysomelid beetle Cassida rubiginosa was introduced to New Zealand in 2007 mainly to control Cirsium arvense (Californian thistle), one of the most noxious weeds found in the world. New Zealand does not have any native thistles and very few economically important ones. Therefore, there is potential for using this beetle to target secondary weeds and to better manage the beetle for weed biocontrol. Host selection behaviour of the beetle was investigated by conducting experiments in a phylogenetic context giving emphasis to chemical cues. Host range was investigated for constitutive volatiles as well as induced volatiles. Host-range testing with constitutive volatiles was conducted by using 19 Asteraceae plants (16 Cardueae and 3 non-Cardueae) which were selected according to phylogeny. A series of single-choice and dual-choice olfactometer experiments and adult host-choice experiments were carried out investigating the beetles’ choice of constitutive volatiles. Adult host-choice experiments were performed to test the feeding and oviposition preference of the beetle. Volatiles were induced by conspecific larval damage and 13 Cardueae plant species were used. Using induced volatiles, the differential attraction of C. rubiginosa in olfactometer experiments comparing undamaged leaves with conspecific larval damaged leaves was investigated. Volatiles were collected and analysed using GC-MS. Compatibility of the beetle can change according to other biocontrol agents. Investigations were carried out with two fungal pathogens (Puccinia punctiformis and Sclerotinia sclerotiorum) infesting C. arvense by studying the olfactory behaviour of adult C. rubiginosa towards fungus-infected C. arvense. A series of olfactometer experiments were conducted to evaluate the host selection of the beetle; dual-choice experiments were performed to investigate its feeding preference. Adult beetles were given the choice between healthy thistle leaves and leaves infected by one of the pathogens. Volatiles were collected from healthy and fungus-infected plants and analysed using GC-MS. The multi-targeting biocontrol potential of C. rubiginosa was tested with marsh thistle (Cirsium palustre), a species closely related to the primary host and shown to be equally preferred in previous experiments. To test if the beetle can reduce the fitness of marsh thistle a potted plant experiment was established with four treatments (0, 50, 100 and 200 larvae/plant). Plant growth (width, height and number of branches) and reproductive performance (number of flowers, seeds, seed weight and % germination) parameters were measured. The results show that as phylogenetic distance from the primary host plant increases, the beetles’ preference for alternative hosts decreases. This was the case for all three parameters: olfactory choice for constitutive volatiles, feeding and oviposition preference. Olfactory experiments showed similar host range to host-choice experiments across the Cardueae tribe. When presented with herbivore-induced volatiles (HIPVs) the beetle increased attraction towards five hosts that it was not attracted to when tested with constitutive volatiles. Chemical compounds such as cis-β-ocimene and β-caryophyllene were detected in the HIPVs blend in the five species of plants that showed beetle attraction, expanding the olfactory host range of the beetle. However, the beetles’ attraction towards C. arvense was reduced when infected with the biotrophic rust fungus P. punctiformis while the necrotroph S. sclerotiorum had no effect. Both pathogens, however, reduced adult beetle leaf consumption. Volatile profiles showed a unique blend of compounds where the P. punctiformis-infected thistle leaves were characterised by the emission of benzenoids and indole, S. sclerotiorum-infected leaves by green leaf volatiles. Thus, having multiple biocontrol agents can reduce the efficacy of at least one of the involved agents and should be taken into consideration. The multi-targeting potential of the beetle is predicted to follow the phylogenetic trend in host preference. As such, the greatest multi-targeting potential is likely for the equally preferred species, particularly the Cirsium and Carduus genera. Though the beetle was found to be equally attracted to C. palustre in all of the experiments, it did not show an effect in reducing C. palustre individual plant growth or reproductive performance under the imposed experimental conditions. If the beetle is to have an impact on other thistle weeds, it will likely need to attack early growth stages (seedlings), or smaller size classes of plants to prevent reproduction.

Published
2018

25. The role of clonal growth in the pathosystem Cirsium arvense – Puccinia punctiformis

Author

J. Frantzen

Subjects
education.field_of_study, Population, Rust (fungus), food and beverages, Plant Science, Biology, Weed control, biology.organism_classification, Pathosystem, Botany, Shoot, education, Puccinia punctiformis, Cirsium arvense, Clonal growth
Abstract

The impact of the pathogenic rust fungus Puccinia punctiformis on the population dynamics of the clonal host plant Cirsium arvense was studied using field data and a matrix population model. To account for the spatial growth pattern of C. arvense, the study area was divided into cells of 10 × 10 cm. The cells were classified as empty (no C. arvense shoots), diseased (shoots infected by P. punctiformis), or healthy. The spatial growth pattern of C. arvense could be described as static or dynamic. Abundance of C. arvense depended largely on dynamic clonal growth. Shoots produced by dynamic clonal growth had a lower probability to be infected by P. punctiformis than shoots produced by static clonal growth. Dynamic clonal growth seemed to serve as a mechanism of disease escape. The results are discussed with respect to the use of P. punctiformis as biological agent for control of C. arvense in grasslands. Key words: clonal growth, disease escape, Puccinia punctiformis, Cirsium arvense, biological weed control.

Published
1994
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26. Quantitative resistance ofCirsium arvenseto root bud infection byPuccinia punctiformis

Author

W. Van Der Zweerde and J. Frantzen

Subjects
biology, Resistance (ecology), Insect Science, Botany, Rust (fungus), biology.organism_classification, Puccinia punctiformis, Cirsium arvense, Agronomy and Crop Science, Rust, Mycelium, Clearance
Abstract

A method is presented to test clones of Cirsium arvense for resistance to root bud infection by the rust fungus Puccinia punctiformis. Root buds were stained and cleared to detect mycelium of the rust. The fraction of root buds infected was determined and used as a measure of resistance. Clones of C. arvense, collected from three sites, were tested for resistance to infection. Variation in resistance was determined between and within sites. The results are discussed with a view to using P. punctiformis to control C. arvense.

Published
1994
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27. Dynamics of a mutualism in a multi-species context

Author

Sven Bacher and Jürg Friedli

Subjects
Population, Population Dynamics, Cirsium, General Biochemistry, Genetics and Molecular Biology, Host-Parasite Interactions, Species Specificity, Multi species, Animals, education, Cirsium arvense, General Environmental Science, Plant Diseases, Mutualism (biology), education.field_of_study, Herbivore, General Immunology and Microbiology, biology, Behavior, Animal, Host (biology), Ecology, Weevil, Fungi, General Medicine, biology.organism_classification, Coleoptera, General Agricultural and Biological Sciences, Puccinia punctiformis, Research Article
Abstract

Despite recent findings that mutualistic interactions between two species may be greatly affected by species external to the mutualism, the implications of such multi-species interactions for the population dynamics of the mutualists are virtually unexplored. In this paper, we ask how the mutualism between the shoot-base boring weevil Apion onopordi and the rust fungus Puccinia punctiformis is influenced by the dynamics of their shared host plant Cirsium arvense, and vice versa. In particular, we hypothesized that the distribution of the weevil's egg load between healthy and rust-infected thistles may regulate the abundance of the mutualists and their host plant. In contrast to our expectations we found that the dynamics of the mutualists are largely determined by the dynamics of their host. This is, to our knowledge, the first demonstration that the dynamics of a mutualism are driven by a third, non-mutualistic species.

Published
2002

28. Puccinia punctiformis . [Descriptions of Fungi and Bacteria]

Author

null UK, CAB International, Yu. Ya. Tykhonenko, and D. W. Minter

Subjects
biology, Botany, Puccinia punctiformis, biology.organism_classification, Bacteria
Abstract

A description is provided for Puccinia punctiformis . Information is included on the disease caused by the organism, its transmission, geographical distribution, and hosts. DISEASE: Rust of Cirsium species only. Since 1923 there has been some interest in North America and New Zealand in using P. punctiformis as an agent of biocontrol against Cirsium arvense , which is a malicious weed in grassland, especially during the change from intensive to extensive management (ecological cropping systems may also increase the incidence of this weed). On its own, P. punctiformis does not contain the host, but studies have shown that populations of the host can decline by 95% when the rosette weevil, Hadroplontus [ Ceutorhynchus ] litura , is also present. The effectiveness is, however, questionable because rhizomes of creeping thistle grow faster than the fungus can pervade them. HOSTS: Cirsium arvense, C. incanum ( Compositae ). GEOGRAPHICAL DISTRIBUTION: NORTH AMERICA: Canada (British Columbia, Nova Scotia, Ontario, Québec, rare in the prairies), USA (California, Maine, Massachusetts, Michigan, Montana, New Jersey, New York, Ohio, Pennsylvania, Rhode Island, South Dakota, Utah, Vermont, Washington, Wisconsin). ASIA: Afganistan, Armenia, Azerbaijan, Republic of Georgia, Iran, Japan, Kazakhstan, Kirgizia, Russia (East Siberia, Omsk, Primorski krai), Tadzhikistan, Turkmenistan, Uzbekistan. AUSTRALASIA: Australia, New Zealand. EUROPE: Austria, Belarus, Belgium, Denmark, Estonia, Finland, France, Germany, Great Britain, Ireland, Italy, Latvia, Lithuania, Netherlands, Norway, Poland, Portugal, Romania, Russia (Bashkir Republic, Ivanovo, Karelia Republic, Kursk, Leningrad, Moscow, Nizhni Novgorod, Rostov, Samara, Saratov, Tatar Republic, Tver, Volgograd, Voronezh, Vyatka, Yekaterinburg), Spain, Sweden, Switzerland, Ukraine. TRANSMISSION: The mycelium survives in rhizomes of the infected plant and the next spring spreads up causing systemic infection of the new season's leaves and stems; urediniospores are disseminated by air currents; teliospores hibernate in the dead tissue of the host plant and then germinate to produce basidia with basidiospores, which re-infect the host plants.

Published
2001
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29. The Effect of Temperature on the Germination of Teliospores ofPuccinia punctiformis

Author

J. Frantzen

Subjects
Puccinia, Horticulture, Germination, Botany, Weed science, Plant Science, Biology, biology.organism_classification, Weed, Puccinia punctiformis, Agronomy and Crop Science, Spore
Abstract

Germination of teliospores was analyzed as a time-dependent process. Nonlinear regression was used to fit germination progress curves for 5, 10, 15, and 20 C. Germination was characterized by the maximum fraction of teliospores germinated, the mid germination time (one-half of the maximum germinated), and the rate of germination at the mid germination time. Temperature had a major effect on the mid germination time and, to a smaller extent, on the rate of germination. The mid germination time was shortest at 15 C, longer at 10 and 20 C, and longest at 5 C. The rate of germination was highest at 10 and 15 C and lower at 5 and 20 C. No effect of temperature was detected on the maximum fraction of teliospores germinated

Published
1994
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31. Properties of an extract from Canada thistle roots that stimulates germination of dormant teliospores of Canada thistle rust (Puccinia punctiformis)

Author

Edwin G. Piotrowski, Sherry K. Turner, Philip E. Pfeffer, Philip E. Sonnett, and Richard C. French

Subjects
food.ingredient, Biological pest control, Rust (fungus), General Chemistry, Biology, biology.organism_classification, Spore, food, Germination, Botany, Thistle, General Agricultural and Biological Sciences, Cirsium arvense, Weed, Puccinia punctiformis
Published
1988
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32. Teleutospores as origin of systemic infection of Cirsium arvense by Puccinia punctiformis

Author

J. Frantzen, G. van den Ende, and T. Timmers

Subjects
Inoculation, Petri dish, fungi, Rust (fungus), Plant Science, Horticulture, Biology, biology.organism_classification, law.invention, Local infection, law, Germination, Botany, Cirsium arvense, Puccinia punctiformis, Agronomy and Crop Science
Abstract

Teleutospores ofPuccinia punctiformis were used for germination and inoculation experiments. The percentage of germination increased with increasing root extract concentration separately from the spore-suspension present in the same Petri dish.

Published
1987
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33. An epidemiological study of Puccinia punctiformis (Str.) Röhl as a stepping-stone to the biological control of Cirsium arvense (L.) Scop.

Author

Frantzen J

Abstract

The infection cycle of the autoecious rust fungus Puccinia punctiformis on the clonal plant Cirsium arvense was described in terms of intensity (amount of pathogen per unit area and used for systemic infection) and extent (area occupied by the pathogen and used for local lesion infection) at four grassland sites in The Netherlands. The incidence of systemic infection was relatively low and systemically infected shoots were typically concentrated at a few locations within a site. Incidence of local lesion infection was relatively high and widespread in ail sites. Spatial and temporal distribution of teliospores, the inoculum for systemic infection, were quantified in order to explain the relatively low and spatially unequal incidence of systemic infection. Because of the large impact of systemic infection on C. arvense shoots, it is concluded that a spatially homogeneous distribution of teliospores may be a prerequisite for the biological control of C. arvense by P. punctiformis.

Published
1994
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