Search

Your search keyword '"Card, Stuart D."' showing total 41 results
Start Over Author "Card, Stuart D." Publication Type Academic Journals
41 results on '"Card, Stuart D."'

1. Epichloë fungal endophyte interactions in perennial ryegrass (Lolium perenne L.) modified to accumulate foliar lipids for increased energy density

Author

Richardson, Kim A., de Bonth, Anouck C. M., Beechey-Gradwell, Zac, Kadam, Suhas, Cooney, Luke J., Nelson, Kelly A., Cookson, Ruth, Winichayakul, Somrutai, Reid, Michele, Anderson, Philip, Crowther, Tracey, Zou, Xiuying, Maher, Dorothy, Xue, Hong, Scott, Richard W., Allan, Anne, Johnson, Richard D., Card, Stuart D., Mace, Wade J., Roberts, Nicholas J., and Bryan, Gregory

Published
2023
Full Text
View/download PDF

4. The growth promotion in endophyte symbiotic plants does not penalise the resistance to herbivores and bacterial microbiota.

Author

Zhang, Wei, Gundel, Pedro E., Jáuregui, Ruy, Card, Stuart D., Mace, Wade J., Johnson, Richard D., and Bastías, Daniel A.

Subjects
DRUG resistance in bacteria, CHEMICAL plants, PLANT resistance to insects, RHOPALOSIPHUM padi, ENDOPHYTIC fungi, RYEGRASSES, PLANT growth
Abstract

A trade‐off between growth and defence against biotic stresses is common in plants. Fungal endophytes of the genus Epichloë may relieve this trade‐off in their host grasses since they can simultaneously induce plant growth and produce antiherbivore alkaloids that circumvent the need for host defence. The Epichloë ability to decouple the growth‐defence trade‐off was evaluated by subjecting ryegrass with and without Epichloë endophytes to an exogenous treatment with gibberellin (GA) followed by a challenge with Rhopalosiphum padi aphids. In agreement with the endophyte‐mediated trade‐off decoupling hypothesis, the GA‐derived promotion of plant growth increased the susceptibility to aphids in endophyte‐free plants but did not affect the insect resistance in endophyte‐symbiotic plants. In line with the unaltered insect resistance, the GA treatment did not reduce the concentration of Epichloë‐derived alkaloids. The Epichloë mycelial biomass was transiently increased by the GA treatment but at the expense of hyphal integrity. The response of the phyllosphere bacterial microbiota to both GA treatment and Epichloë was also evaluated. Only Epichloë, and not the GA treatment, altered the composition of the phyllosphere microbiota and the abundance of certain bacterial taxa. Our findings clearly demonstrate that Epichloë does indeed relieve the plant growth‐defence trade‐off. Summary statement: A debate has been raised if fungal endophytes can relieve the plant growth‐defence trade‐off. Epichloë endophytes decoupled the trade‐off: the growth‐mediated penalisation of plant defences was observed in E− but not in E+ plants. The Epichloë production of alkaloids was likely the decoupling mechanism. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

5. Epichloë – a key element of New Zealand's agricultural landscape.

Author

Card, Stuart D., Bastías, Daniel A., Zhang, Wei, Hume, David E., and Caradus, John R.

Subjects
*PASTORAL systems, *AGRICULTURE, *PLANT biomass, *GENETIC techniques, *ENDOPHYTIC fungi
Abstract

Epichloë is a genus of filamentous fungal endophytes that have co-evolved with cool-season grasses with which they form long-term, symbiotic associations. In natural ecosystems Epichloë have implications for species diversity, food web structures and fundamental ecological processes. Epichloë produce a range of secondary metabolites that can have negative effects on herbivores, be they invertebrates or vertebrates. In many managed pastoral systems, selected asexual Epichloë strains are purposefully associated with grass cultivars (termed novel endophyte-grass associations) as they confer beneficial traits that protect the host from abiotic stresses (e.g. drought) and biotic stresses (e.g. herbivory from invertebrates) while having minimal impact on the health and welfare of ruminant livestock. As well as conferring beneficial traits, agriculturally selected strains of Epichloë can also increase plant biomass and seed yield. Epichloë endophyte-technology has and continues to be a scientific, agricultural, and marketing success with selected asexual strains of Epichloë now essential components of many pasture ecosystems, within New Zealand and abroad. An estimated 90% of proprietary ryegrass now sold in New Zealand contains a selected endophyte strain while the economic impact in New Zealand of AR37 alone has been estimated at NZ$3.6 billion over 20 years. With a changing climate, agriculture will continue to experience increasing temperatures, elevated atmospheric CO2 levels and changing precipitation patterns that will likely increase the geographic range and overwintering survival rates of pests. Furthermore, plant disease outbreaks are expected to intensify due to increases in the severity of existing phytopathogens and/or invasions by new phytopathogens. Functional symbioses, such as those between temperate grasses and Epichloë, are among the most successful mechanisms by which plants can improve their ability to tolerate stress. Future research is likely to utilise targeted genetic manipulation techniques to broaden the biocontrol ability of Epichloë strains, particularly to mitigate climate related stresses. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

10. You are what you eat: fungal metabolites and host plant affect the susceptibility of diamondback moth to entomopathogenic fungi.

Author

Soth, Sereyboth, Glare, Travis R., Hampton, John G., Card, Stuart D., Brookes, Jenny J., and Narciso, Josefina O.

Subjects
DIAMONDBACK moth, FUNGAL metabolites, ENTOMOPATHOGENIC fungi, HOST plants, PLANT metabolites, BIOPESTICIDES
Abstract

Background: Beauveria are entomopathogenic fungi of a broad range of arthropod pests. Many strains of Beauveria have been developed and marketed as biopesticides. Beauveria species are well-suited as the active ingredient within biopesticides because of their ease of mass production, ability to kill a wide range of pest species, consistency in different conditions, and safety with respect to human health. However, the efficacy of these biopesticides can be variable under field conditions. Two under-researched areas, which may limit the deployment of Beauveria-based biopesticides, are the type and amount of insecticidal compounds produced by these fungi and the influence of diet on the susceptibility of specific insect pests to these entomopathogens. Methods: To understand and remedy this weakness, we investigated the effect of insect diet and Beauveria-derived toxins on the susceptibility of diamondback moth larvae to Beauveria infection. Two New Zealand-derived fungal isolates, B. pseudobassiana I12 Damo and B. bassiana CTL20, previously identified with high virulence towards diamondback moth larvae, were selected for this study. Larvae of diamondback moth were fed on four different plant diets, based on different types of Brassicaceae, namely broccoli, cabbage, cauliflower, and radish, before their susceptibility to the two isolates of Beauveria was assessed. A second experiment assessed secondary metabolites produced from three genetically diverse isolates of Beauveria for their virulence towards diamondback moth larvae. Results: Diamondback moth larvae fed on broccoli were more susceptible to infection by B. pseudobassiana while larvae fed on radish were more susceptible to infection by B. bassiana. Furthermore, the supernatant from an isolate of B. pseudobassiana resulted in 55% and 65% mortality for half and full-strength culture filtrates, respectively, while the filtrates from two other Beauveria isolates, including a B. bassiana isolate, killed less than 50% of larvae. This study demonstrated different levels of susceptibility of the insects raised on different plant diets and the potential use of metabolites produced by Beauveria isolates in addition to their conidia. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

11. Epichloë seed transmission efficiency is influenced by plant defense response mechanisms.

Author

Wei Zhang, Forester, Natasha T., Moon, Christina D., Maclean, Paul H., Gagic, Milan, Arojju, Sai Krishna, Card, Stuart D., Matthew, Cory, Johnson, Richard D., Johnson, Linda J., Faville, Marty J., and Voisey, Christine R.

Subjects
PLANT defenses, RYEGRASSES, RECEPTOR-like kinases, SINGLE nucleotide polymorphisms, GENOME-wide association studies, SEEDS
Abstract

Asexual Epichloë are endophytic fungi that form mutualistic symbioses with cool-season grasses, conferring to their hosts protection against biotic and abiotic stresses. Symbioses are maintained between grass generations as hyphae are vertically transmitted from parent to progeny plants through seed. However, endophyte transmission to the seed is an imperfect process where not all seeds become infected. The mechanisms underpinning the varying efficiencies of seed transmission are poorly understood. Host gene expression in response to Epichloë sp. LpTG-3 strain AR37 was examined within inflorescence primordia and ovaries of high and low endophyte transmission genotypes within a single population of perennial ryegrass. A genome-wide association study was conducted to identify population-level single nucleotide polymorphisms (SNPs) and associated genes correlated with vertical transmission efficiency. For low transmitters of AR37, upregulation of perennial ryegrass receptor-like kinases and resistance genes, typically associated with phytopathogen detection, comprised the largest group of differentially expressed genes (DEGs) in both inflorescence primordia and ovaries. DEGs involved in signaling and plant defense responses, such as cell wall modification, secondary metabolism, and reactive oxygen activities were also abundant. Transmission-associated SNPs were associated with genes for which gene ontology analysis identified "response to fungus" as the most significantly enriched term. Moreover, endophyte biomass as measured by quantitative PCR of Epichloë non-ribosomal peptide synthetase genes, was significantly lower in reproductive tissues of low-transmission hosts compared to high-transmission hosts. Endophyte seed-transmission efficiency appears to be influenced primarily by plant defense responses which reduce endophyte colonization of host reproductive tissues. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

12. Factors controlling the effects of mutualistic bacteria on plants associated with fungi.

Author

Bastías, Daniel A., Applegate, Emma R., Johnson, Linda J., and Card, Stuart D.

Subjects
PHYTOPATHOGENIC fungi, PLANT-fungus relationships, ANTAGONISTIC fungi, PLANT performance, BACTERIA
Abstract

Plants interacting with mutualistic fungi (MF) or antagonistic fungi (AF) can form associations with bacteria. We assessed whether the performance gain conferred by mutualistic bacteria to fungal‐associated plants is affected by the interaction between symbiont traits, type of bacterial‐protective traits against AF and abiotic/biotic stresses. Results showed that (A) performance gain conferred by bacteria to MF‐associated plants was greater when symbionts promoted distinct rather than similar plant functions, (B) bacterial‐based alleviation of the AF's negative effect on plants was independent of the type of protective trait, (C) bacteria promoted a greater performance of symbiotic plants in presence of biotic, but not abiotic, stress compared to stress‐free situations. The plant performance gain was not affected by any fungal‐bacterial trait combination but optimised when bacteria conferred resistance traits in biotic stress situations. The effects of bacteria on fungal‐associated plants were controlled by the interaction between the symbionts' functional traits and the relationship between bacterial traits and abiotic/biotic stresses. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

15. Simple solution to preserve plant samples for microbiome analyses.

Author

Carvalhais, Lilia C., Dennis, Paul G., Poudel, Amrit, Birt, Henry W. G., Bhuiyan, Shamsul A., Card, Stuart D., and Joyce, Priya A.

Subjects
PLANT DNA, PLANT diversity, DIMETHYL sulfoxide, BACTERIAL diversity, MATERIALS analysis
Abstract

Culture‐independent survey techniques are fundamental tools when assessing plant microbiomes. These methods rely on DNA that is carefully preserved after collecting samples to achieve meaningful results. Immediately freezing samples to −80°C after collection is considered one of the most robust methods for preserving samples before DNA extraction but is often impractical. Preservation solutions can solve this problem, but commercially available products are expensive, and there is limited data comparing their efficacy with other preservation methods. In this study, we compared the impact of three methods of sample preservation on plant microbiome surveys: (1) RNAlater, a proprietary preservative, (2) a home‐made salt‐saturated dimethyl sulphoxide preservation solution (DESS), and (3) freezing at −80°C. DESS‐preserved samples, stored at room temperature for up to four weeks, did not show any significant differences to samples frozen at −80°C, while RNAlater inflated bacterial alpha diversity. Preservation treatments did not distinctively influence fungal alpha diversity. Our results demonstrate that DESS is a versatile and inexpensive preservative of DNA in plant material for diversity analyses of fungi and bacteria. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

16. Biological Control of Diamondback Moth—Increased Efficacy with Mixtures of Beauveria Fungi.

Author

Soth, Sereyboth, Glare, Travis R., Hampton, John G., Card, Stuart D., and Brookes, Jenny J.

Subjects
DIAMONDBACK moth, BEAUVERIA bassiana, ENTOMOPATHOGENIC fungi, BRASSICACEAE, FUNGI, BIOPESTICIDES, ARTHROPOD pests
Abstract

Diamondback moth (DBM) is an important horticultural pest worldwide as the larvae of these moths feed on the leaves of cruciferous vegetables. As DBM has developed resistance to more than 100 classes of synthetic insecticides, new biological control options are urgently required. Beauveria species are entomopathogenic fungi recognized as the most important fungal genus for controlling a wide range of agricultural, forestry, and veterinary arthropod pests. Previous research, aimed at developing new Beauveria-based biopesticides for DBM, has focused on screening single isolates of Beauveria bassiana. However, these fungal isolates have individual requirements, which may limit their effectiveness in some environments. This current study separately assessed 14 Beauveria isolates, from a range of habitats and aligned to four different species (Beauveria bassiana, B. caledonica, B. malawiensis, and B. pseudobassiana), to determine the most effective isolate for the control of DBM. Further assays then assessed whether selected combinations of these fungal isolates could increase the overall efficacy against DBM. Six Beauveria isolates (three B. bassiana and three B. pseudobassiana) achieved high DBM mortality at a low application rate with the first documented report of B. pseudobassiana able to kill 100% of DBM larvae. Further research determined that applications of low-virulent Beauveria isolates improved the control of DBM compared to mixtures containing high-virulent isolates. This novel approach increased the DBM pest mortality and shortened the time to kill. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

17. Ergot alkaloids in New Zealand pastures and their impact.

Author

Caradus, John R., Card, Stuart D., Finch, Sarah C., Hume, David E., Johnson, Linda J., Mace, Wade J., and Popay, Alison J.

Subjects
*ERGOT alkaloids, *PASTURES, *INSECT pests, *ANIMAL welfare, *GRAZING
Abstract

In identifying endophytes for use in pastures in New Zealand there have been two strategies used, either exclusion of ergopeptine and lolitrem alkaloids or, retaining some ergopeptine expression to enhance the stability of natural defences against invertebrate pests. Both have their strengths and weaknesses. It is a matter of balancing these to ensure the end-user has access to a product that satisfies their needs – a persistent pasture with low to nil animal toxicity in terms of animal production and welfare. The range and intensity of ergot alkaloids in grazed pasture on both pasture and ruminants is reviewed, with emphasis on New Zealand. Ergot alkaloids associated with pasture are produced by associations between certain Epichloë endophyte strains and temperate grasses. Ergot alkaloids have been shown to improve persistence of pasture through providing resistance/deterrence to insect pests as well as deterring grazing animals. However, ergovaline is toxic to grazing animals. Some commercially available ryegrass-endophyte associations can produce ergovaline concentrations close to those found in associations between ryegrass and the standard endophyte. It is feasible to eliminate ergot alkaloids from pasture grasses in New Zealand as endophyte strains are commercially available that do not express ergovaline and yet still provide excellent pest resistance. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

18. Asexual Epichloë Fungi--Obligate Mutualists.

Author

Caradus, John R., Card, Stuart D., Hewitt, Katrin G., Hume, David E., and Johnson, Linda J.

Subjects
*EPICHLOE, *VERTEBRATES, *FUNGI, *HERBIVORES, *INVERTEBRATES, *PHYTOPATHOGENIC bacteria
Abstract

Definition: Asexual Epichloë are obligate fungal mutualists that form symbiosis with many temperate grass species, providing several advantages to the host. These advantages include protection against vertebrate and invertebrate herbivores (i.e., grazing livestock and invertebrate pests, respectively), improved resistance to phytopathogens, increased adaptation to drought stress, nutrient deficiency, and heavy metal-containing soils. Selected Epichloë strains are utilised in agriculture mainly for their pest resistance traits, which are moderated via the production of Epichloë-derived secondary metabolites. For pastoral agriculture, the use of these endophyte infected grasses requires the balancing of protection against insect pests with reduced impacts on animal health and welfare. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

19. Influence of nitrogen fertilization on growth and loline alkaloid production of meadow fescue (Festuca pratensis) associated with the fungal symbiont Neotyphodium uncinatum

Author

Bylin, Anja G., Hume, David E., Card, Stuart D., Mace, Wade J., Lloyd-West, Catherine M., and Huss-Danell, Kerstin

Subjects
Fescues -- Growth, Agricultural research, Alkaloids -- Health aspects, Fungi -- Health aspects, Nitrogen fertilizers -- Health aspects, Growth (Plants) -- Research, Plant-soil relationships -- Research, Company growth, Biological sciences
Abstract

In a field study during two growing seasons in northern Sweden, we assessed meadow fescue (Festuca pratensis Huds.) with and without Neotyphodium uncinatum to determine whether the endophyte affects plant performance regarding tiller and biomass production. In addition, we measured loline alkaloids produced in infected grasses. Approximately 1000 plants grew at two different levels of nitrogen fertilization: the normal amount applied in this region and one-half that amount. Increasing the amount of nitrogen increased the total number of tillers on the plants. Endophyte-infected plants produced more tillers per plant than plants without the endophyte; there was, however, no significant difference in proportion of reproductive tillers, winter survival, or total biomass production between endophyte-infected and noninfected plants. Infected plants produced loline alkaloids in different quantities without indication of being influenced by different nitrogen fertilization levels. Key words: endophyte, forage, nitrogen fertilization. Nous avons evalue la fetuque des pres (Festuca pratensis Huds.) dans une etude sur le terrain realisee au cours de deux saisons de croissance dans le nord de la Suede, en presence ou en absence de Neotyphodium uncinatum, afin de determiner si 'endophyte affecte la performance de la plante sur le plan de la production de talles et de biomasse. Nous avons de plus mesure es alcaloides loline produits par l'herbe infectee. Pres d'un millier de plantes ont pousse sous deux conditions de fertilisation a 'azote : la quantite normale appliquee dans cette region et la moitie de cette quantite. L'augmentation de la quantite d'azote ccroissait le nombre total de talles sur les plantes. Les plantes infectes par l'endophyte produisaient davantage de talles par lante que les plantes sans endophyte; cette difference n'etait toutefois pas significative en proportion des talles reproductives, e la survie a l'hiver ou de la biomasse totale entre les plantes infectes et non infectes. Les plantes infectes produisaient des lcaloides loline en quantites differentes, sans indication que cela ait ete influence par les differents niveaux de fertilisation a 'azote. [Traduit par la Redaction] Mots-cles: endophyte, forage, fertilisation a l'azote., Introduction Meadow fescue (Festuca pratensis Huds.) is a perennial pooid grass that grows widely in Northern Europe and parts of Asia. In the Nordic and Baltic countries, it is an [...]

Published
2014
Full Text
View/download PDF

20. Ontogenetic and trans‐generational dynamics of a vertically transmitted fungal symbiont in an annual host plant in ozone‐polluted settings.

Author

Ueno, Andrea C., Gundel, Pedro E., Ghersa, Claudio M., Demkura, Patricia V., Card, Stuart D., Mace, Wade J., and Martínez‐Ghersa, María Alejandra

Subjects
ANNUALS (Plants), HOST plants, TROPOSPHERIC ozone, ITALIAN ryegrass, SEED viability
Abstract

Tropospheric ozone is an abiotic stress of increasing importance in the context of global climate change. This greenhouse gas is a potent phytotoxic molecule with demonstrated negative effects on crop yield and natural ecosystems. Recently, oxidative stress has been proposed as a mechanism that could regulate the interaction between cool‐season grasses and Epichloë endophytes. We hypothesized that exposure of Lolium multiflorum plants, hosting endophytes to an ozone‐polluted environment at different ontogenetic phases, would impact the trans‐generational dynamics of the vertically transmitted fungal symbiont. Here, we found that the ozone‐induced stress on the mother plants did not affect the endophyte vertical transmission but it impaired the persistence of the fungus in the seed exposed to artificial ageing. Endophyte longevity in seed was reduced by exposure of the mother plant to ozone. Although ozone exposure did not influence either the endophyte mycelial concentration or their compound defences (loline alkaloids), a positive correlation was observed between host fitness and the concentration of endophyte‐derived defence compounds. This suggests that fungal defences in grass seeds were not all produced in situ but remobilized from the vegetative tissues. Our study reveals ozone trans‐generational effects on the persistence of a beneficial symbiont in a host grass. Mother plant exposure to ozone did not affect the growth and the transmission of fungal endophytes into host seeds. Seed alkaloid concentration correlated with endophyte mycelial concentration and host fitness. However, ozone‐induced stress on mother plants did impair the longevity of the endophytes in the seeds. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

21. Methylobacterium, a major component of the culturable bacterial endophyte community of wild Brassica seed.

Author

Roodi, Davood, Millner, James P., McGill, Craig, Johnson, Richard D., Jauregui, Ruy, and Card, Stuart D.

Subjects
ENDOPHYTIC bacteria, PLANT-fungus relationships, METHYLOBACTERIUM, BACTERIAL communities, BRASSICA, DOMESTICATION of plants, BIOLOGICAL control of bacteria
Abstract

Background: Plants are commonly colonized by a wide diversity of microbial species and the relationships created can range from mutualistic through to parasitic. Microorganisms that typically form symptomless associations with internal plant tissues are termed endophytes. Endophytes associate with most plant species found in natural and managed ecosystems. They are extremely important plant partners that provide improved stress tolerance to the host compared with plants that lack this symbiosis. Plant domestication has reduced endophyte diversity and therefore the wild relatives of many crop species remain untapped reservoirs of beneficial microbes. Brassica species display immense diversity and consequently provide the greatest assortment of products used by humans from a single plant genus important for agriculture, horticulture, bioremediation, medicine, soil conditioners, composting crops, and in the production of edible and industrial oils. Many endophytes are horizontally transmitted, but some can colonize the plant's reproductive tissues, and this gives these symbionts an efficient mechanism of propagation via plant seed (termed vertical transmission). Methods: This study surveyed 83 wild and landrace Brassica accessions composed of 14 different species with a worldwide distribution for seed-originating bacterial endophytes. Seed was stringently disinfected, sown within sterile tissue culture pots within a sterile environment and incubated. After approximately 1-month, direct isolation techniques were used to recover bacterial endophytes from roots and shoots of symptomless plants. Bacteria were identified based on the PCR amplification of partial 16S rDNA gene sequences and annotated using the BLASTn program against the NCBI rRNA database. A diversity index was used as a quantitative measure to reflect how many different bacterial species there were in the seed-originating microbial community of the Brassica accessions sampled. Results: Bacterial endophytes were recovered from the majority of the Brassica accessions screened. 16S rDNA gene sequencing identified 19 different bacterial species belonging to three phyla, namely Actinobacteria, Firmicutes and Proteobacteria with the most frequently isolated species being Methylobacterium fujisawaense, Stenotrophomonas rhizophila and Pseudomonas lactis. Methylobacterium was the dominant genus composing 56% of the culturable isolated bacterial community and was common in 77% of accessions possessing culturable bacterial endophytes. Two selected isolates of Methylobacterium significantly promoted plant growth when inoculated into a cultivar of oilseed rape and inhibited the growth of the pathogen Leptosphaeria maculans in dual culture. This is the first report that investigates the seed-originating endophytic microorganisms of wild Brassica species and highlights the Brassica microbiome as a resource for plant growth promoting bacteria and biological control agents. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

22. A Tale of Two Grass Species: Temperature Affects the Symbiosis of a Mutualistic Epichloë Endophyte in Both Tall Fescue and Perennial Ryegrass.

Author

Freitas, Priscila P., Hampton, John G., Rolston, M. Phil., Glare, Travis R., Miller, Poppy P., and Card, Stuart D.

Subjects
TALL fescue, PLANT biomass, GRASSES, SPECIES, SYMBIOSIS, RYEGRASSES
Abstract

Many cool-season grasses form permanent, mutualistic symbioses with asexual Epichloë endophytes. These fungal symbionts often perform a protective role within the association as many strains produce secondary metabolites that deter certain mammalian and invertebrate herbivores. Although initially a serious issue for agriculture, due to mammalian toxins that manifested in major animal health issues, selected strains that provide abiotic stress protection to plants with minimal ill effects to livestock are now commercialized and routinely used to enhance pasture performance in many farming systems. These fungal endophytes and their grass hosts have coevolved over millions of years, and it is now generally accepted that most taxonomic groupings of Epichloë are confined to forming compatible associations (i.e., symptomless associations) with related grass genera within a tribe. The most desired compounds associated with Epichloë festucae var. lolii , an endophyte species associated with perennial ryegrass, are peramine and epoxy-janthitrems. No other major secondary metabolites with invertebrate bioactivity have been identified within this association. However, other agriculturally beneficial compounds, such as lolines, have been discovered in related endophyte species that form associations with fescue grasses. A rationale therefore existed to develop novel grass-endophyte associations between loline-producing endophytes originally isolated from tall fescue with elite cultivars of perennial ryegrass to achieve a wider spectrum of insect bioactivity. A suitable loline-producing endophyte strain of Epichloë sp. FaTG-3 was selected and inoculated into perennial ryegrass. We hypothesed that endophyte transmission frequency, endophyte mycelial biomass and endophyte-derived alkaloid production would differ between the original tall fescue host and the artificial association. Consistent with our hypothesis, our data strongly suggest that plant species significantly affected the plant-endophyte association. This effect became more apparent for transmission frequency and endophyte biomass as the plants matured. Overall, the viable endophyte infection frequency was greater in the tall fescue host than in perennial ryegrass, at all sampling dates. Additionally, temperature was found to be a significant factor affecting endophyte transmission frequency, endophyte mycelial biomass and alkaloid production. Implications for the development of novel grass-endophyte associations are discussed. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

23. Sipha maydis sensitivity to defences of Lolium multiflorum and its endophytic fungus Epichloë occultans.

Author

Bastías, Daniel A., Martínez-Ghersa, Maria Alejandra, Newman, Jonathan A., Card, Stuart D., Mace, Wade J., and Gundel, Pedro E.

Subjects
ITALIAN ryegrass, ENDOPHYTIC fungi, PLANT defenses, SALICYLIC acid, PLANT hormones, JASMONIC acid, ENDOPHYTES, ENDOPHYTIC bacteria
Abstract

Background. Plants possess a sophisticated immune system to defend from herbivores. These defence responses are regulated by plant hormones including salicylic acid (SA) and jasmonic acid (JA). Sometimes, plant defences can be complemented by the presence of symbiotic microorganisms. A remarkable example of this are grasses establishing symbiotic associations with Epichloë fungal endophytes. We studied the level of resistance provided by the grass' defence hormones, and that provided by Epichloë fungal endophytes, against an introduced herbivore aphid. These fungi protect their hosts against herbivores by producing bioactive alkaloids. We hypothesized that either the presence of fungal endophytes or the induction of the plant salicylic acid (SA) defence pathway would enhance the level of resistance of the grass to the aphid. Methods. Lolium multiflorum plants, with and without the fungal endophyte Epichloë occultans, were subjected to an exogenous application of SA followed by a challenge with the aphid, Sipha maydis. Results. Our results indicate that neither the presence of E. occultans nor the induction of the plant's SA pathway regulate S. maydis populations. However, endophytesymbiotic plants may have been more tolerant to the aphid feeding because these plants produced more aboveground biomass. We suggest that this insect insensitivity could be explained by a combination between the ineffectiveness of the specific alkaloids produced by E. occultans in controlling S. maydis aphids and the capacity of this herbivore to deal with hormone-dependent defences of L. multiflorum. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

24. Effects of endophyte infection on the competitive ability of Achnatherum sibiricum depend on endophyte species and nitrogen availability.

Author

Zhou, Yong, Li, Xia, Liu, Hui, Gao, Yubao, Mace, Wade J, Card, Stuart D, and Ren, Anzhi

Subjects
SPECIES, ROOT growth, PLANT species, NITROGEN, ENDOPHYTIC fungi, EUCALYPTUS, BINARY mixtures
Abstract

Aims The leaves of almost all terrestrial plant species are colonized by endophytic fungi. Compared to agronomic grasses, which usually harbor few endophytes, native grasses generally possess greater endophyte species diversity. Existing studies examining endophyte effects on natural grasses under competition normally considered the infection status (infected or uninfected), and rarely considered endophyte species. Methods We examined the effects of endophyte infection and of endophyte species on the interspecific competitive ability of a subdominant species, Achnatherum sibiricum , at two nitrogen levels (high nitrogen and low nitrogen). Achnatherum sibiricum plants infected by two different species of endophyte (Epichloë sibirica and E. gansuensis) and uninfected plants were grown in monoculture and binary mixtures with a dominant species, Stipa grandis (six individuals per species for monocultures and three + three individuals of each species in mixtures). Shoot and root biomass, tiller number and total phenolic concentration were measured after 3 months. Moreover, the aggressivity index was calculated to compare the competitive ability of A. sibiricum relative to S. grandis. Important Findings Both E. gansuensis (Eg)- and E. sibirica (Es)-infected A. sibiricum plants showed a greater competitive ability than the uninfected plants under high nitrogen supply, while the opposite result occurred under low nitrogen supply. At high nitrogen levels, Eg plants had a higher tiller number and a greater shoot biomass inhibitory effect on S. grandis than Es plants had when growing in mixture, while Es plants showed better root growth performance than Eg and uninfected plants under mixture conditions at all nitrogen levels. A higher concentration of phenolic compounds in Eg plants than in Es plants might contribute to the higher inhibitory effect of Eg plants on competing plants. Our study indicates that the interaction between endophyte infection and nitrogen availability can alter the competitive ability of the host plant A. sibiricum but that these two endophyte species work in different ways, which may influence the coexistence of A. sibiricum with the dominant species. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

25. Epichloë fungal endophyte colonisation and seed quality in developing grass florets – effect of different fertiliser applications.

Author

Wang, Muyu, McGill, Craig R., Southward, Robert C., He, Xiong Zhao, Card, Stuart D., and Rolston, M. Philip

Subjects
ENDOPHYTES, FUNGAL colonies, SEED quality, PLANT-fungus relationships, FORAGE plants, EFFECT of nitrogen on plants
Abstract

Perennial ryegrass is an important pasture, forage and turf plant, and in New Zealand, it is commonly and intentionally inoculated with selected beneficial endophyte strains. These endophytes provide enhanced traits to their host grasses with AR37, a market leading strain, conferring a broad spectrum of insect deterrence coupled with excellent animal performance. The effect of different nitrogen forms, with and without potassium, on a range of seed quality parameters, and presence of AR37, was determined. TSW and seed germination did not respond to nitrogen application. However, a combination of nitrogen and potassium reduced TSW and seed germination and increased empty seed percentage. There was no influence of spikelet position on any of the seed quality parameters measured. However, within a spikelet, there was an effect of floret position on TSW, empty seed and endophyte presence. The effect varied depending on whether nitrogen was applied as nitrate or ammonium. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

26. The plant hormone salicylic acid interacts with the mechanism of anti‐herbivory conferred by fungal endophytes in grasses.

Author

Bastías, Daniel A., Alejandra Martínez‐Ghersa, M., Newman, Jonathan A., Card, Stuart D., Mace, Wade J., and Gundel, Pedro E.

Subjects
SALICYLIC acid, ENDOPHYTES, PHYTOPATHOGENIC fungi, SYMBIOSIS, HERBIVORES
Abstract

Abstract: The plant hormone salicylic acid (SA) is recognized as an effective defence against biotrophic pathogens, but its role as regulator of beneficial plant symbionts has received little attention. We studied the relationship between the SA hormone and leaf fungal endophytes on herbivore defences in symbiotic grasses. We hypothesize that the SA exposure suppresses the endophyte reducing the fungal‐produced alkaloids. Because of the role that alkaloids play in anti‐herbivore defences, any reduction in their production should make host plants more susceptible to herbivores. Lolium multiflorum plants symbiotic and nonsymbiotic with the endophyte Epichloë occultans were exposed to SA followed by a challenge with the aphid Rhopalosiphum padi. We measured the level of plant resistance to aphids, and the defences conferred by endophytes and host plants. Symbiotic plants had lower concentrations of SA than did the nonsymbiotic counterparts. Consistent with our prediction, the hormonal treatment reduced the concentration of loline alkaloids (i.e., N‐formyllolines and N‐acetylnorlolines) and consequently decreased the endophyte‐conferred resistance against aphids. Our study highlights the importance of the interaction between the plant immune system and endophytes for the stability of the defensive mutualism. Our results indicate that the SA plays a critical role in regulating the endophyte‐conferred resistance against herbivores. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

27. The effect of grass endophytes on earthworms and slugs under a turf mowing regime.

Author

Pennell, Christopher G. L., Rolston, M. Philip, van Koten, Chikako, Mace, Wade J., Hume, David E., and Card, Stuart D.

Subjects
ENDOPHYTES, EARTHWORMS, SLUGS (Mollusks), TURFGRASSES, RYEGRASSES
Abstract

Earthworms are not a direct pest of turf grass but they are considered a problem on many sports fields, disrupting playability and aesthetics due to the castings they deposit on the playing surface. Also, a number of slug species are well-known foliage destroying pests of a number of agriculturally important crop species. Perennial ryegrass and tall fescue cultivars associated with selected Epichloë endophytes, originally developed for bird management at airports, were assessed to determine their deterrent properties towards worms and slugs. Plots sown with endophyte-free ryegrass had significantly higher numbers of worms and slugs than plots containing the same grass cultivar infected with the endophyte strain AR95. Also, plots sown with endophyte-free tall fescue had significantly higher numbers of slugs (but not worms) than plots containing the same grass cultivar infected with the endophyte strain AR601. Although more research is required on the exact mechanism of action, these results suggest selected novel endophyte-infected grass associations, such as those including the endophyte AR95, may substantially reduce populations of worms and slugs in areas where these grasses are sown. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

28. Novel grass-endophyte associations reduce the feeding behaviour of invasive European rabbits (Oryctolagus cuniculus).

Author

Pennell, Christopher G. L., Rolston, M. Philip, Latham, A. David M., Mace, Wade J., Vlaming, Ben, van Koten, Chikako, Latham, M. Cecilia, Brown, Samantha, and Card, Stuart D.

Abstract

Context. Small mammalian herbivores, such as European rabbits (Oryctolagus cuniculus), can have significant unwanted impacts on agriculture and horticulture and can attract birds of prey and avian scavengers to airports, increasing the risk of bird strike. Sustainable wildlife management tools that have high efficacy and animal welfare are needed to mitigate these impacts. Aim. We assessed perennial ryegrass (Lolium perenne) and tall fescue (Festuca arundinacea) cultivars associated with selected Epichloë endophytes, originally developed for bird management at airports, to determine their feeding-deterrent properties towards invasive rabbits. Methods. A pellet feed trial using caged domestic rabbits and a pen trial using wild rabbits were conducted to assess rabbit responses to food pellets with novel endophyte-infected or uninfected grass seed and to plots planted with endophyte-infected or uninfected grasses, respectively. Key results. Caged rabbits ate significantly less food pellets containing endophyte-infected grass straw than pellets containing endophyte-free grass straw. Wild rabbits consumed significantly less herbage from plots planted with endophyte-infected grasses than those of the equivalent endophyte-free grass cultivars. Temporal patterns of rabbit feeding behaviour support the hypothesis that deterrence in rabbits resulted from post-ingestion feedback associated with grass-endophyte secondary metabolites. Conclusions. Although more research is required on the exact mechanism of action in rabbits, our results suggest novel endophyte-infected grass associations may substantially reduce rabbit feeding behaviour and possibly rabbit numbers in areas where these grasses are sown. Implications. Novel grass-endophyte associations have great potential for deterring problem wildlife at airports and other amenity areas. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

29. cAMP Signaling Regulates Synchronised Growth of Symbiotic Epichloë Fungi with the Host Grass Lolium perenne.

Author

Voisey, Christine R., Christensen, Michael T., Johnson, Linda J., Forester, Natasha T., Gagic, Milan, Bryan, Gregory T., Simpson, Wayne R., Fleetwood, Damien J., Card, Stuart D., Koolaard, John P., Maclean, Paul H., and Johnson, Richard D.

Subjects
EPICHLOE, SEEDLINGS
Abstract

The seed-transmitted fungal symbiont, Epichloë festucae, colonizes grasses by infecting host tissues as they form on the shoot apical meristem (SAM) of the seedling. How this fungus accommodates the complexities of plant development to successfully colonize the leaves and inflorescences is unclear. Since adenosine 3', 5'-cyclic monophosphate (cAMP)-dependent signaling is often essential for host colonization by fungal pathogens, we disrupted the cAMP cascade by insertional mutagenesis of the E. festucae adenylate cyclase gene (acyA). Consistent with deletions of this gene in other fungi, acyA mutants had a slow radial growth rate in culture, and hyphae were convoluted and hyper-branched suggesting that fungal apical dominance had been disrupted. Nitro blue tetrazolium (NBT) staining of hyphae showed that cAMP disruption mutants were impaired in their ability to synthesize superoxide, indicating that cAMP signaling regulates accumulation of reactive oxygen species (ROS). Despite significant defects in hyphal growth and ROS production, E. festucae ΔacyA mutants were infectious and capable of forming symbiotic associations with grasses. Plants infected with E. festucae ΔacyA were marginally less robust than the wild-type (WT), however hyphae were hyper-branched, and leaf tissues heavily colonized, indicating that the tight regulation of hyphal growth normally observed in maturing leaves requires functional cAMP signaling. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

30. Avanex Unique Endophyte Technology: Reduced Insect Food Source at Airports.

Author

Pennell, Christopher G. L., Popay, Alison J., Rolston, M. Philip, Townsend, Richard J., Lloyd-West, Catherine M., and Card, Stuart D.

Subjects
ENDOPHYTES, INSECT food, AIRPORTS, INSECT populations, INSECT pest control, INSECTICIDE application
Abstract

Birds and other forms of wildlife are a major issue for airport authorities worldwide, as they can create hazards to operating aircraft. Wildlife "strikes," the majority caused by birds, can cause damage to operating aircraft and in severe cases lead to a loss of human life. Many airfields contain large areas of ground cover herbage alongside their runways that consist of mixtures of grasses, legumes, and weeds that can harbor many invertebrates. Many airfields use insecticides to control insect populations; however, mounting pressure from regional councils and water boards aim to reduce this practice due to ground water runoff and contamination concerns. Avanex Unique Endophyte Technology, a product specifically developed to reduce the attractiveness of airports and surrounding areas to birds, is based on a novel association between a selected strain of Epichloë endophyte and a turf-type tall fescue cultivar. This grass-endophyte association acts through a direct mechanism whereby a negative response in birds is created through taste aversion and postingestion feedback as well as an indirect mechanism by deterring many invertebrates, a food source of many bird species. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

31. Beneficial endophytic microorganisms of Brassica – A review.

Author

Card, Stuart D., Hume, David E., Roodi, Davood, McGill, Craig R., Millner, James P., and Johnson, Richard D.

Subjects
*ENDOPHYTES, *BRASSICA, *BIOREMEDIATION, *SOIL conditioners, *COMPOSTING, *AGRICULTURE
Abstract

Brassica species display enormous diversity and subsequently provide the widest assortment of products used by man from a single plant genus. Many species are important for agriculture, horticulture, in bioremediation, as medicines, soil conditioners, composting crops, and in the production of edible and industrial oils such as liquid fuels and lubricants. Many wild Brassica relatives possess a number of useful agronomic traits, including beneficial microbial endophytes that could be incorporated into breeding programs. Endophytes of Brassica , and/or their metabolites, have been demonstrated to improve and promote plant growth; increase yield; reduce disease symptoms caused by plant pathogens; reduce herbivory from insect pests; remove contaminants from soil; improve plant performance under extreme conditions of temperature and water availability; solubilise phosphate and contribute assimilable nitrogen to their hosts. Brassica napus (oilseed rape) and Brassica oleracea var. botrytis (broccoli and cauliflower) are the most economically important species of Brassica worldwide. These commercial crops are attacked by a wide range of pathogens and insect pests that are responsible for millions of dollars in lost revenue, with current control options offering little mitigation. No alternative control products are available for the Brassica industry, although it has been well documented in the literature that the use of endophytic microorganisms can offer beneficial traits to their host plants, including pest and disease resistance. The aim of this review is to describe the literature concerning beneficial microbial endophytes and their prospects to enhance or provide additional traits to their Brassica host species. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

32. Development of Plant–Fungal Endophyte Associations to Suppress Phoma Stem Canker in Brassica.

Author

Roodi, Davood, Millner, James P., McGill, Craig R., Johnson, Richard D., Hea, Shen-Yan, Brookes, Jenny J., Glare, Travis R., and Card, Stuart D.

Subjects
LEPTOSPHAERIA maculans, PHOMA, DISEASE resistance of plants, BRASSICA, ENDOPHYTIC fungi, ENDOPHYTES, RUTABAGA
Abstract

Endophytic microorganisms are found within the tissues of many plants species, with some conferring several benefits to the host plant including resistance to plant diseases. In this study, two putative endophytic fungi that were previously isolated from wild seeds of Brassica, identified as Beauveria bassiana and Pseudogymnoascus pannorum, were inoculated into cultivars of three Brassica species—Brassica napus, Br. rapa and Br. oleracea. Both fungal endophytes were reisolated from above- and below-ground tissues of inoculated plants at four different plant-growth stages, including cotyledon, one-leaf, two-leaf, and four-leaf stages. None of the plants colonised by these fungi exhibited any obvious disease symptoms, indicating the formation of novel mutualistic associations. These novel plant–endophyte associations formed between Brassica plants and Be. bassiana significantly inhibited phoma stem canker, a devastating disease of Brassica crops worldwide, caused by the fungal pathogen Leptosphaeria maculans. The novel association formed with P. pannorum significantly suppressed the amount of disease caused by L. maculans in one out of two experiments. Although biological control is not a new strategy, endophytic fungi with both antiinsect and antifungal activity are a highly conceivable, sustainable option to manage pests and diseases of economically important crops. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

33. Antagonism to Plant Pathogens by Epichloë Fungal Endophytes—A Review.

Author

Card, Stuart D., Bastías, Daniel A., and Caradus, John R.

Subjects
ENDOPHYTIC fungi, PHYTOPATHOGENIC microorganisms, TALL fescue, DROUGHT tolerance, ENDOPHYTES
Abstract

Epichloë is a genus of filamentous fungal endophytes that has co-evolved with cool-season grasses with which they form long-term, symbiotic associations. The most agriculturally important associations for pasture persistence for grazing livestock are those between asexual vertically transmitted Epichloë strains and the pasture species, perennial ryegrass, and tall fescue. The fungus confers additional traits to their host grasses including invertebrate pest deterrence and drought tolerance. Selected strains of these mutualistic endophytes have been developed into highly efficacious biocontrol products and are widely utilized within the Americas, Australia, and New Zealand for pasture persistence. Less publicized is the antagonism Epichloë endophytes display towards multiple species of saprophytic and pathogenic microbes. This opinion piece will review the current literature on antimicrobial properties exhibited by this genus of endophyte and discuss the reasons why this trait has historically remained a research curiosity rather than a trait of commercial significance. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

34. Symbiotic bacteria of plant-associated fungi: friends or foes?

Author

Bastías, Daniel A, Johnson, Linda J, and Card, Stuart D

Subjects
*FUNGUS-bacterium relationships, *BACTERIAL typing, *WOLBACHIA, *SYMBIODINIUM
Abstract

Many bacteria form symbiotic associations with plant-associated fungi. The effects of these symbionts on host fitness usually depend on symbiont or host genotypes and environmental conditions. However, bacterial endosymbionts, that is those living within fungal cells, may positively regulate host performance as their survival is often heavily dependent on host fitness. Contrary to this, bacteria that establish ectosymbiotic associations with fungi, that is those located on the hyphal surface or in close vicinity to fungal mycelia, may not have an apparent net effect on fungal performance due to the low level of fitness dependency on their host. Our analysis supports the hypothesis that endosymbiotic bacteria of fungi are beneficial symbionts, and that effects of ectosymbiotic bacteria on fungal performance depends on the bacterial type involved in the interaction (e.g. helper versus pathogen of fungi). Ecological scenarios, where the presence of beneficial bacterial endosymbionts of fungi could be compromised, are also discussed. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

37. Survey of the Endophytic Bacteria Inhabiting Wild Daucus Seed Using 16S rRNA Gene Amplicon Sequencing.

Author

Kumar S, Johnson LJ, Teasdale S, Morozova Y, de Bonth ACM, Jauregui R, Hannaford R, and Card SD

Abstract

We report a preliminary survey of the endophytic bacterial microbiota of seed from wild carrot (Daucus carota) using 16S rRNA gene amplicon sequencing. Actinobacteria , Bacteroidetes , Firmicutes , and Proteobacteria were the most abundant phyla detected, while Bacillus , Massilia , Paenibacillus , Pantoea , Pseudomonas, Rhizobium , Sphingomonas , and Xanthomonas were the most abundant genera., Competing Interests: The authors declare no conflict of interest.

Published
2023
Full Text
View/download PDF

38. Epichloë seed transmission efficiency is influenced by plant defense response mechanisms.

Author

Zhang W, Forester NT, Moon CD, Maclean PH, Gagic M, Arojju SK, Card SD, Matthew C, Johnson RD, Johnson LJ, Faville MJ, and Voisey CR

Abstract

Asexual Epichloë are endophytic fungi that form mutualistic symbioses with cool-season grasses, conferring to their hosts protection against biotic and abiotic stresses. Symbioses are maintained between grass generations as hyphae are vertically transmitted from parent to progeny plants through seed. However, endophyte transmission to the seed is an imperfect process where not all seeds become infected. The mechanisms underpinning the varying efficiencies of seed transmission are poorly understood. Host gene expression in response to Epichloë sp. LpTG-3 strain AR37 was examined within inflorescence primordia and ovaries of high and low endophyte transmission genotypes within a single population of perennial ryegrass. A genome-wide association study was conducted to identify population-level single nucleotide polymorphisms (SNPs) and associated genes correlated with vertical transmission efficiency. For low transmitters of AR37, upregulation of perennial ryegrass receptor-like kinases and resistance genes, typically associated with phytopathogen detection, comprised the largest group of differentially expressed genes (DEGs) in both inflorescence primordia and ovaries. DEGs involved in signaling and plant defense responses, such as cell wall modification, secondary metabolism, and reactive oxygen activities were also abundant. Transmission-associated SNPs were associated with genes for which gene ontology analysis identified "response to fungus" as the most significantly enriched term. Moreover, endophyte biomass as measured by quantitative PCR of Epichloë non-ribosomal peptide synthetase genes, was significantly lower in reproductive tissues of low-transmission hosts compared to high-transmission hosts. Endophyte seed-transmission efficiency appears to be influenced primarily by plant defense responses which reduce endophyte colonization of host reproductive tissues., Competing Interests: WZ, NTF, CDM, PHM, MG, SKA, SDC, RDJ, LJJ, MJF and CRV are/were employed by AgResearch Ltd., New Zealand. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Zhang, Forester, Moon, Maclean, Gagic, Arojju, Card, Matthew, Johnson, Johnson, Faville and Voisey.)

Published
2022
Full Text
View/download PDF

39. Complete Genome Sequence of Paenibacillus sp. Strain E222, a Bacterial Symbiont of an Epichloë Fungal Endophyte of Ryegrass.

Author

Bastías DA, Jauregui R, Applegate ER, Altermann E, Card SD, and Johnson LJ

Abstract

We report on the whole-genome sequence of Paenibacillus sp. strain E222, a bacterium isolated from a fresh culture of Epichloë festucae var. lolii , a mutualistic fungal endophyte of perennial ryegrass. The genome has a size of 7.8 Mb and a G+C content of 46% and encodes 6,796 putative protein-coding genes., (Copyright © 2020 Bastías et al.)

Published
2020
Full Text
View/download PDF

40. The Impact of Endophyte Infection, Seed Aging, and Imbibition on Selected Sugar Metabolite Concentrations in Seed.

Author

Zhang W, Mace WJ, Matthew C, and Card SD

Subjects
Festuca growth & development, Festuca metabolism, Festuca physiology, Seeds metabolism, Seeds microbiology, Seeds physiology, Symbiosis, Endophytes physiology, Epichloe physiology, Festuca microbiology, Seeds growth & development, Sugars metabolism
Abstract

This study investigated effects of seed aging and imbibition on sugar metabolite concentrations in Epichloë endophyte-infected and endophyte-free seed of tall fescue ( Festuca arundinacea Schreb.). Two treatments, namely, accelerated aging and imbibition, were applied to the seeds, with embryo and endosperm tissues analyzed separately. Gas chromatography with flame ionization detection was employed for analysis of sugar metabolites within the seed tissues. Mannitol, ribitol, and trehalose were more abundant in embryo than endosperm tissues and were identified at consistently higher concentrations within endophyte-infected compared to endophyte-free seeds. The ratio of raffinose to sucrose significantly increased with seed aging in both endophyte-free and endophyte-infected embryo tissues, while significantly lower concentrations of trehalose were detected in tissues dissected from aged-seed regardless of endophyte status. This research provides fundamental insight into the metabolic details of endophyte survival in seed and provides a first evaluation of key carbohydrates present in the fungal-plant symbiosis.

Published
2019
Full Text
View/download PDF

41. The advantages of endophyte-infected over uninfected tall fescue in the growth and pathogen resistance are counteracted by elevated CO 2 .

Author

Chen W, Liu H, Wurihan, Gao Y, Card SD, and Ren A

Subjects
Biomass, Endophytes drug effects, Festuca drug effects, Festuca microbiology, Photosynthesis drug effects, Plant Leaves drug effects, Plant Leaves growth & development, Plant Leaves microbiology, Saccharomycetales pathogenicity, Carbon Dioxide pharmacology, Disease Resistance, Endophytes physiology, Festuca growth & development
Abstract

Atmospheric CO 2 concentrations are predicted to double within the next century. Despite this trend, the extent and mechanisms through which elevated CO 2 affects grass-endophyte symbionts remain uncertain. In the present study, the growth, chemical composition and pathogen resistance of endophyte-infected (E+) and uninfected (E-) tall fescue were compared under elevated CO 2 conditions. The results showed that the effect of endophyte infection on the growth of tall fescue was significantly affected by elevated CO 2 . Significant advantage of E+ over E- tall fescue in tiller number, maximum net photosynthetic rate and shoot biomass occurred only under ambient CO 2 . With CO 2 concentration elevated, the beneficial effect of endophyte infection on the growth disappeared. Similarly, endophyte infection reduced lesion number and spore concentration of Curvularia lunata only under ambient CO 2 . These results suggest that the beneficial effect of endophyte infection on the growth and pathogen resistance of tall fescue could be counteracted by elevated CO 2. An explanation for the counteraction may be found in a change in photosynthesis and nutritive quality of leaf tissue.

Published
2017
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results