Publications – Ecology and evolution of insects and microbes in forest systems

2025

Schröder, Michelle Louise; Hurley, Brett P.; Wingfield, Michael J.; Slippers, Bernard; Garnas, Jeffrey R.

Thermal limitations to the biological control of Gonipterus sp. n. 2 (Coleoptera: Curculionidae) in South African Eucalyptus plantations Journal Article

In: Agricultural and Forest Entomology, pp. afe.70002, 2025, ISSN: 1461-9555, 1461-9563.

@article{schroder_thermal_2025,

title = {Thermal limitations to the biological control of Gonipterus sp. n. 2 (Coleoptera: Curculionidae) in South African Eucalyptus plantations},

author = {Michelle Louise Schröder and Brett P. Hurley and Michael J. Wingfield and Bernard Slippers and Jeffrey R. Garnas},

url = {https://resjournals.onlinelibrary.wiley.com/doi/10.1111/afe.70002},

doi = {10.1111/afe.70002},

issn = {1461-9555, 1461-9563},

year  = {2025},

date = {2025-08-01},

urldate = {2025-08-01},

journal = {Agricultural and Forest Entomology},

pages = {afe.70002},

abstract = {Abstract 

 Climate significantly influences the efficacy of biological control agents. Differences in thermal tolerance between herbivores and their parasitoids can limit the success of biological control due to asymmetrical impacts of extreme temperatures in winter and summer. 

 The resurgence of the Eucalyptus weevil 

 Gonipterus 

 sp. n. 2 (Coleoptera: Curculionidae) in South Africa is geographically variable in ways that have been hypothesised to reflect differential patterns in winter mortality, favouring early‐season growth of beetle populations. 

 The aim of the study was to examine evidence for local adaptation and climatic mismatching between 

 Gonipterus 

 sp. n. 2 and 

 Anaphes nitens 

 (Hymenoptera: Myrmaridae) across elevations in the summer rainfall area of South Africa. 

 We examined the upper lethal thresholds (ULT; at which 50% of the insects died), the lower lethal threshold (LLT; the super cooling point) and development time at 15, 20 and 25°C of 

 Gonipterus 

 sp. n. 2 and its biological control agent, 

 A. nitens 

 , collected from high and coastal populations. 

 Gonipterus 

 sp. n. 2 adults had higher ULT's and LLT's than 

 A. nitens 

 adults across populations. The coastal population of 

 A. nitens 

 had a higher ULT than the inland population. No further evidence of local adaptation was detected. 

 Results indicate a climatic mismatch between 

 Gonipterus 

 sp. n. 2 and 

 A. nitens 

 consistent with observed patterns of pest outbreaks 

 . 

 Pest management strategies to improve control of 

 Gonipterus 

 n. sp. 2 will need to take the local climate and its effect on pest–parasitoid interactions into account.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Bertelsmeier, Cleo; Bonnamour, Aymeric; Garnas, Jeff R.; Liu, Tongyi; Perreault, Rosaëlle; Ollier, Sébastien

Temporal dynamics and global flows of insect invasions in an era of globalization Journal Article

In: Nature Reviews Biodiversity, 2025, ISSN: 3005-0677.

Pureswaran, Deepa S.; Garnas, Jeff

Threat of Red Pine Scale, textitMatsucoccus matsumurae (Kuwana) to the Midwestern United States and Canada Journal Article

In: Plant Health Cases, pp. phcs20250005, 2025, ISSN: 2959-880X.

Slippers, Bernard; Fitza, Katrin N. E.; Garnas, Jeff R.

Genetic Diversity Should Be Considered in Biological Control Programmes in Plantation Forestry Book Section

In: Hurley, Brett P.; Lawson, Simon A.; Slippers, Bernard (Ed.): Biological Control of Insect Pests in Plantation Forests, pp. 71–93, Springer Nature Switzerland, Cham, 2025, ISBN: 978-3-031-76495-0.

Draft genome sequences for Neonectria magnoliae and Neonectria punicea, canker pathogens of Liriodendron tulipifera and Acer saccharum in West Virginia Journal Article

Petronek, Hannah M.; Kasson, Matt T.; Metheny, Amy M.; Stauder, Cameron M.; Lovett, Brian; Lynch, Shannon C.; Garnas, Jeff R.; Kasson, Lindsay R.; Stajich, Jason E.

In: Microbiology Resource Announcements, vol. 14, no. 1, pp. e01042–24, 2025, ISSN: 2576-098X.

2024

Collop, Amy; Terblanche, John S.; Clusella-Trullas, Susana; Garnas, Jeff R.; Bradicich, Pius; Karsten, Minette

Testing hypotheses of invasion pathways of the ladybird Harmonia axyridis into and across South Africa Journal Article

In: Biological Invasions, vol. 26, no. 6, pp. 1715–1734, 2024, ISSN: 1387-3547, 1573-1464.

@article{collop_testing_2024,

title = {Testing hypotheses of invasion pathways of the ladybird Harmonia axyridis into and across South Africa},

author = {Amy Collop and John S. Terblanche and Susana Clusella-Trullas and Jeff R. Garnas and Pius Bradicich and Minette Karsten},

url = {https://link.springer.com/10.1007/s10530-024-03274-w},

doi = {10.1007/s10530-024-03274-w},

issn = {1387-3547, 1573-1464},

year  = {2024},

date = {2024-06-01},

urldate = {2024-05-14},

journal = {Biological Invasions},

volume = {26},

number = {6},

pages = {1715–1734},

abstract = {Abstract 

 Harmonia axyridis 

 is an invasive beetle (Coleoptera: Coccinellidae), native to Asia, that has established on four continents beyond its native range and was first observed in South Africa in 2001. Using microsatellite data and a comprehensive geographic coverage of international (17 locations) and South African (14 locations) beetle samples, we inferred the source of colonists invading South Africa and the beetle’s movement within the country. Genetic structure analyses suggest that this species’ populations in South Africa are derived from admixture between beetles originating from eastern North America (which acted as a bridgehead population) and another population not directly sampled in our study. Genetic admixture prior its invasion into South Africa, along with the possibility of multiple introductions from the bridgehead population, may explain the high genetic diversity estimates for South African 

 H. axyridis 

 (H 

 E = 0.582–0.625) compared to beetles from the native range (H 

 E = 0.440–0.636). 

 Harmonia axyridis 

 appear to be frequently exchanging genetic material across South Africa, with no clear genetic structure between sampled locations. However, evidence of weak isolation-by-distance within South Africa suggests that beetles are dispersing less frequently between locations that are furthest apart. This study supports previous findings on global invasion pathways in this species but provides new insights in the context of the invasion in South Africa. We highlight how mixing of distinct lineages from divergent origins prior to the invasion into South Africa has augmented genetic diversity in the region. The high dispersal rates and large effective population sizes inferred from genetic markers suggest that slowing the spread or reducing population abundances of the species in South Africa will be challenging without an integrated, multi-faceted management approach.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Ziadeh, C. P. ; S. B. Ziadeh; B. H. Aflague; M. A. Townley; M. P. Ayres; A. R. Contosta;; Garnas, J. R.

Distinct communities under the snow: describing characteristics of subnivium arthropod communities Journal Article

In: Environmental Entomology, 2024.

Ziadeh, Christopher P; Ziadeh, Shayleigh B; Aflague, Breanne H; Townley, Mark A; Ayres, Matthew P; Contosta, Alexandra R; Garnas, Jeff R

Distinct communities under the snow: describing characteristics of subnivium arthropod communities Journal Article

In: Environmental Entomology, pp. nvae017, 2024, ISSN: 0046-225X, 1938-2936.

@article{ziadeh_distinct_2024,

title = {Distinct communities under the snow: describing characteristics of subnivium arthropod communities},

author = {Christopher P Ziadeh and Shayleigh B Ziadeh and Breanne H Aflague and Mark A Townley and Matthew P Ayres and Alexandra R Contosta and Jeff R Garnas},

editor = {Talbot Trotter},

url = {https://academic.oup.com/ee/advance-article/doi/10.1093/ee/nvae017/7637145},

doi = {10.1093/ee/nvae017},

issn = {0046-225X, 1938-2936},

year  = {2024},

date = {2024-04-01},

urldate = {2024-04-04},

journal = {Environmental Entomology},

pages = {nvae017},

abstract = {Arthropods are active during the winter in temperate regions. Many use the seasonal snowpack as a buffer against harsh ambient conditions and are active in a refugium known as the subnivium. While the use of the subnivium by arthropods is well established, far less is known about subnivium community composition, abundance, biomass, and diversity and how these characteristics compare with the community in the summer. Understanding subnivium communities is especially important given the observed and anticipated changes in snowpack depth and duration due to the changing climate. We compared subnivium arthropod communities with those active during the summer using pitfall trapping in northern New Hampshire. We found that compositions of ground-active arthropod communities in the subnivium differed from those in the summer. The subnivium arthropod community featured moderate levels of richness and other measures of diversity that tended to be lower than the summer community. More strikingly, the subnivium community was much lower in overall abundance and biomass. Interestingly, some arthropods were dominant in the subnivium but either rare or absent in summer collections. These putative “subnivium specialists” included the spider Cicurina brevis (Emerton 1890) (Araneae: Hahniidae) and 3 rove beetles (Coleoptera: Staphylinidae): Arpedium cribratum Fauvel, 1878, Lesteva pallipes LeConte, 1863, and Porrhodites inflatus (Hatch, 1957). This study provides a detailed account of the subnivium arthropod community, establishes baseline information on arthropod communities in temperate forests of northeastern North America, and explores the idea of subnivium specialist taxa that are highly active in winter and might be especially vulnerable to climate change.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

JR, Morrison E; Duong T; Garnas

A high-quality draft genome sequence of Neonectria faginata, causative agent of beech bark disease of Fagus grandifolia Journal Article

In: Microbiol Resource Announcements, vol. 13, iss. 2, pp. e0104823, 2024.

Kanaskie, Caroline R.; Routhier, Michael R.; Fraser, Benjamin T.; Congalton, Russell G.; Ayres, Matthew P.; Garnas, Jeff R.

Early Detection of Southern Pine Beetle Attack by UAV-Collected Multispectral Imagery Journal Article

In: Remote Sensing, vol. 16, no. 14, pp. 2608, 2024, ISSN: 2072-4292, (Number: 14).

Southern pine beetle (Coleoptera: Curculionidae) and its associated insect community: similarities and key differences between northeastern and southeastern pine forests Journal Article

@article{kanaskie_early_2024,

title = {Early Detection of Southern Pine Beetle Attack by UAV-Collected Multispectral Imagery},

author = {Caroline R. Kanaskie and Michael R. Routhier and Benjamin T. Fraser and Russell G. Congalton and Matthew P. Ayres and Jeff R. Garnas},

url = {https://www.mdpi.com/2072-4292/16/14/2608},

doi = {https://doi.org/10.3390/rs16142608},

issn = {2072-4292},

year  = {2024},

date = {2024-01-01},

urldate = {2024-07-17},

journal = {Remote Sensing},

volume = {16},

number = {14},

pages = {2608},

publisher = {Multidisciplinary Digital Publishing Institute},

abstract = {Effective management of bark beetle infestations requires prompt detection of attacked trees. Early attack is also called green attack, since tree foliage does not yet show any visible signs of tree decline. In several bark beetle systems, including mountain pine beetle and European spruce bark beetle, unpiloted aerial vehicle (UAV)-based remote sensing has successfully detected early attack. We explore the utility of remote sensing for early attack detection of southern pine beetle (SPB; Dendroctonus frontalis Zimm.), paired with detailed ground surveys to link tree decline symptoms with SPB life stages within the tree. In three of the northernmost SPB outbreaks in 2022 (Long Island, New York), we conducted ground surveys every two weeks throughout the growing season and collected UAV-based multispectral imagery in July 2022. Ground data revealed that SPB-attacked pitch pines (Pinus rigida Mill.) generally maintained green foliage until SPB pupation occurred within the bole. This tree decline behavior illustrates the need for early attack detection tools, like multispectral imagery, in the beetle’s northern range. Balanced random forest classification achieved, on average, 78.8% overall accuracy and identified our class of interest, SPB early attack, with 68.3% producer’s accuracy and 72.1% user’s accuracy. After removing the deciduous trees and just mapping the pine, the overall accuracy, on average, was 76.9% while the producer’s accuracy and the user’s accuracy both increased for the SPB early attack class. Our results demonstrate the utility of multispectral remote sensing in assessing SPB outbreaks, and we discuss possible improvements to our protocol. This is the first remote sensing study of SPB early attack in almost 60 years, and the first using a UAV in the SPB literature.},

note = {Number: 14},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

2023

Kanaskie, C. R. ; K. J. Dodds; F. M. Stephen; J. R. Garnas

In: Environmental Entomology, vol. 53, iss. 1, pp. 143–156, 2023.

Garnas, Jeff; Lombardero, FJ; Ayres, M. P.

Forest Insect Population Dynamics Book Chapter

In: Allison, Jeremy; Paine, Timothy D; Slippers, Bernard; Wingfield, Michael J. (Ed.): Forest Entomology and Pathology, Volume 1: Entomology, vol. 1, Chapter 5, Springer, 1, 2023, ISBN: 978-3-031-11552-3 978-3-031-11553-0.

New Records of Southern Pine Beetle (Dendroctonus frontalis Zimmermann; Coleoptera: Curculionidae) in New York, New Hampshire, and Maine, USA Indicate Northward Range Expansion Journal Article

Kanaskie, CR; Schmeelk, TC; Cancelliere, JA; Garnas, JR

In: The Coleopterists Bulletin , vol. 77, iss. 2, pp. 248-251 , 2023.

2022

Fitza, K. N.; Garnas, Jeff R.; Slippers, B

Fitness consequences of lineage interbreeding in the nematode Deladenus siricidicola, biological control agent of the European woodwasp, Sirex noctilio Journal Article

In: Biological Control, vol. 169, pp. 104875, 2022.

Abstract | BibTeX

2021

Dittrich-Schroder, Gudrun; Garnas, Jeff R.; Arriagada-Cares, Daniela; Ahumada, Rodrigo; Hurley, Brett P.; Lawson, Simon A.; Slippers, Bernard

Global diversity and introduction history of Glycaspis brimblecombei reflects a history of bridgeheads and distinct invasions Journal Article

In: Frontiers in Forests and Global Change, vol. 4, 2021.

Aggressive tree killer or natural thinning agent? Assessing the impacts of a globally important forest insect journal

Krivak-Tetley, Flora E.; Lantschner, M. Victoria; Lombardero, Maria; Garnas, Jeff R.; Hurley, Brett P.; Villacide, José M.; Slippers, Bernard; Corley, Juan C.; Liebhold, Andrew M.; Ayres, Matthew P.

2021.

@journal{24723,

title = {Aggressive tree killer or natural thinning agent? Assessing the impacts of a globally important forest insect},

author = {Flora E. Krivak-Tetley and M. Victoria Lantschner and Maria Lombardero and Jeff R. Garnas and Brett P. Hurley and José M. Villacide and Bernard Slippers and Juan C. Corley and Andrew M. Liebhold and Matthew P. Ayres},

url = {https://www.sciencedirect.com/science/article/pii/S0378112720314973},

year = {2021},

date = {2021-01-01},

journal = {Forest Ecology and Management},

abstract = {Invasive insects and pathogens are prominent tree mortality agents in forests around the world, and the magnitude of their impacts is increasing. Comparative studies across multiple populations can be helpful for the development of new insights and innovative management strategies. We used the Sirex woodwasp, Sirex noctilio Fabricius, as a model system to compare invasion impacts across a range of ecological contexts around the globe: native woodwasps colonizing native trees, invasive woodwasps in non-native plantation trees, and invasive woodwasps attacking native trees. Across 133 stands of eight pine species on four continents, tree mortality associated with S. noctilio attack was positively correlated with stand basal area and stand density, and was mostly confined to smaller, suppressed trees. Larger average tree size and greater distances between trees were linked to lower levels of tree mortality. To more deeply assess the impacts of tree loss due to this pest, we examined mortality in vigorous trees, defined as those with a stem diameter greater than or equal to 90% of the mean diameter for trees in the stand. Sirex noctilio- related mortality in vigorous trees was rare, with one exception where Pinus contorta stands in Argentina lost as many as 300 vigorous trees ha-1. Pine species varied dramatically in their susceptibility to S. noctilio: for example, these losses in P. contorta were in stark contrast to very low mortality in P. ponderosa, the other pine species grown in Argentina. Surprisingly, location did not alter patterns in the influence of stand basal area on tree susceptibility for individual species. Most notably, Pinus radiata had the same relationship between basal area and tree mortality when grown in Spain (where S. noctilio is native and not considered a meaningful forest pest) and South Africa (where S. noctilio is a problematic invasive). Our findings suggest that the availability of optimal pine hosts is a key driver of S. noctilio-related tree mortality across continents and management regimes. Important variables that influence host availability include species- specific susceptibility and environmental and management-related factors that promote or limit the number of stressed trees present both within stands and across the regional forest or plantation landscape. },

keywords = {},

pubstate = {published},

tppubtype = {journal}

}

Invasive insects and pathogens are prominent tree mortality agents in forests around the world, and the magnitude of their impacts is increasing. Comparative studies across multiple populations can be helpful for the development of new insights and innovative management strategies. We used the Sirex woodwasp, Sirex noctilio Fabricius, as a model system to compare invasion impacts across a range of ecological contexts around the globe: native woodwasps colonizing native trees, invasive woodwasps in non-native plantation trees, and invasive woodwasps attacking native trees. Across 133 stands of eight pine species on four continents, tree mortality associated with S. noctilio attack was positively correlated with stand basal area and stand density, and was mostly confined to smaller, suppressed trees. Larger average tree size and greater distances between trees were linked to lower levels of tree mortality. To more deeply assess the impacts of tree loss due to this pest, we examined mortality in vigorous trees, defined as those with a stem diameter greater than or equal to 90% of the mean diameter for trees in the stand. Sirex noctilio- related mortality in vigorous trees was rare, with one exception where Pinus contorta stands in Argentina lost as many as 300 vigorous trees ha-1. Pine species varied dramatically in their susceptibility to S. noctilio: for example, these losses in P. contorta were in stark contrast to very low mortality in P. ponderosa, the other pine species grown in Argentina. Surprisingly, location did not alter patterns in the influence of stand basal area on tree susceptibility for individual species. Most notably, Pinus radiata had the same relationship between basal area and tree mortality when grown in Spain (where S. noctilio is native and not considered a meaningful forest pest) and South Africa (where S. noctilio is a problematic invasive). Our findings suggest that the availability of optimal pine hosts is a key driver of S. noctilio-related tree mortality across continents and management regimes. Important variables that influence host availability include species- specific susceptibility and environmental and management-related factors that promote or limit the number of stressed trees present both within stands and across the regional forest or plantation landscape.  

Morrison, Eric; Kasson, Matthew; Heath, Jeremy; Garnas, JR

Pathogen and endophyte assemblages co-vary with beech bark disease progression, tree decline, and regional climate Journal Article

In: Frontiers in Forests and Global Change, 2021.

@article{24277,

title = {Pathogen and endophyte assemblages co-vary with beech bark disease progression, tree decline, and regional climate},

author = {Eric Morrison and Matthew Kasson and Jeremy Heath and JR Garnas},

url = {https://www.frontiersin.org/articles/10.3389/ffgc.2021.673099/},

year  = {2021},

date = {2021-01-01},

journal = {Frontiers in Forests and Global Change},

abstract = {Plant-pathogen interactions are often considered in a pairwise manner with minimal consideration of the impacts of the broader endophytic community on disease progression and/or outcomes for disease agents and hosts. Community interactions may be especially relevant in the context of disease complexes (i.e, interacting or functionally redundant causal agents) and decline diseases (where saprobes and weak pathogens synergize the effects of primary infections and hasten host mortality). Here we describe the bark endophyte communities associated with a widespread decline disease of American beech, beech bark disease (BBD), caused by an invasive scale insect (Cryptococcus fagisuga) and two fungal pathogens, Neonectria faginata and N. ditissima. We show that the two primary fungal disease agents co-occur more broadly than previously understood (35.5% of infected trees), including within the same 1-cm diameter phloem samples. The two species appear to have contrasting associations with climate and stages of tree decline, wherein N. faginata was associated with warmer and N. ditissima with cooler temperatures. Neonectria ditissima showed a positive association with tree crown dieback – no such association was observed for N. faginata. Further, we identify fungal endophytes that may modulate disease progression as entomopathogens, mycoparasites, saprotrophs and/or additional pathogens, including Clonostachys rosea and Fusarium babinda. These fungi may alter the trajectory of disease via feedbacks with the primary disease agents or by altering symptom expression or rates of tree decline across the range of BBD.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

2020

Mutitu, Eston K.; Hoareau, Thierry B.; Hurley, Brett P.; Garnas, Jeff R.; Wingfield, Michael J.; Slippers, Bernard

Reconstructing early routes of invasion of the bronze bug Thaumastocoris peregrinus (Hemiptera: Thaumastocoridae): cities as bridgeheads for global pest invasions Journal Article

In: Biological Invasions, 2020, ISBN: 1573-1464.

Abstract | BibTeX

Garnas, Jeff R.; Vann, Katie; Hurley, Brett P

Biotic and abiotic effects on density, body size, sex ratio, and survival in immature stages of the European woodwasp, Sirex noctilio Journal Article

In: Ecology and Evolution, 2020.

@article{21631,

title = {Biotic and abiotic effects on density, body size, sex ratio, and survival in immature stages of the European woodwasp, Sirex noctilio},

author = {Jeff R. Garnas and Katie Vann and Brett P Hurley},

url = {https://onlinelibrary.wiley.com/doi/full/10.1002/ece3.6966},

year  = {2020},

date = {2020-01-01},

journal = {Ecology and Evolution},

abstract = {Resource quality can have direct or indirect effects on female oviposition choice, offspring growth and survival, and ultimately on body size and sex ratio. We examined these patterns in Sirex noctilio Fabricus, the globally invasive European pine woodwasp, in South African Pinus patula plantations. We studied how tree position as well as natural variation in biotic and abiotic factors influenced sex-specific density, larval size, tunnel length, male proportion, and survival across development. Twenty infested trees divided into top, middle, and bottom sections were sampled at three time points during larval development. We measured moisture content, bluestain fungal colonization, and co-occurring insect density and counted, measured, and sexed all immature wasps. A subset of larval tunnels was measured to assess tunnel length and resource use efficiency (tunnel length as a function of immature wasp size). Wasp density increased from the bottoms to the tops of trees for both males and females. However, the largest individuals and the longest tunnels were found in bottom sections. Male bias was strong (~10:1) and likewise differed among sections, with the highest proportion in the middle and top sections. Sex ratios became more strongly male biased due to high female mortality, especially in top and middle sections. Biotic and abiotic factors such as colonization by Diplodia sapinea, weevil (Pissodes sp.) density, and wood moisture explained modest residual variation in our primary mixed effects models (0%–22%). These findings contribute to a more comprehensive understanding of sex-specific resource quality for S. noctilio and of how variation in key biotic and abiotic factors can influence body size, sex ratio, and survival in this economically important woodwasp.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Stauder, Cameron M.; Garnas, Jeff R.; Morrison, Eric W.; Salgado-Salazar, Catalina; Kasson, Matt T.

Characterization of mating type genes in heterothallic Neonectria species with emphasis on N. coccinea, N. ditissima, and N. faginata Journal Article

In: Mycologia, vol. 112, no. 5, pp. 880-894, 2020.

@article{19897,

title = {Characterization of mating type genes in heterothallic Neonectria species with emphasis on N. coccinea, N. ditissima, and N. faginata},

author = {Cameron M. Stauder and Jeff R. Garnas and Eric W. Morrison and Catalina Salgado-Salazar and Matt T. Kasson},

url = {https://www-tandfonline-com/doi/full/10.1080/00275514.2020.1797371},

year  = {2020},

date = {2020-01-01},

journal = {Mycologia},

volume = {112},

number = {5},

pages = {880-894},

abstract = {Neonectria ditissima and N. faginata are canker pathogens involved in an insect-fungus disease complex of American beech (Fagus grandifolia) commonly known as beech bark disease (BBD). In Europe, both N. ditissima and N. coccinea are involved in BBD on European beech (Fagus sylvatica). Field observations across the range of BBD indicate that new infections occur primarily via ascospores. Both heterothallic (self-sterile) and homothallic (self-fertile) mating strategies have been reported for Neonectria fungi. As such, investigations into mating strategy are important for understanding both the disease cycle and population genetics of Neonectria. This is particularly important in the U.S. given that over time N. faginata dominates the BBD pathosystem despite high densities of non-beech hosts for N. ditissima. This study utilized whole-genome sequences of BBD-associated Neonectria spp. along with other publicly available Neonectria and Corinectria genomes and in vitro mating assays to characterize mating type (MAT) loci and confirm thallism for select members of Neonectria and Corinectria. MAT gene-specific primer pairs were developed to efficiently characterize the mating types of additional single ascospore strains of N. ditissima, N. faginata, and N. coccinea and several other related species lacking genomic data. In vitro mating assays were used in combination with molecular results to confirm thallism. These assays also comfirmed the sexual compatibility among N. ditissima strains from different plant hosts. Maximum likelihood phylogenetic analysis of both MAT1-1-1 and MAT1-2-1 sequences recovered trees with similar topology to previously published phylogenies of Neonectria and Corinectria. The results of this study indicate that all Neonectria and Corinectria tested are heterothallic based on our limited sampling and, as such, thallism cannot help explain the inevitable dominance of N. faginata in the BBD pathosystem.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

2019

Wondafrash, Mesfin; Slippers, Bernard; Hurley, Brett P.; Garnas, Jeff R.

Local antagonism and resource partitioning among two invasive pine plantation pest Journal Article

In: Agricultural and Forest Entomology, vol. 21, pp. 276-285, 2019.

Fitza, Katrin N. E.; Garnas, Jeff R.; Lombardero, Maria J.; Ayres, Matthew P.; Krivak-Tetley, Flora E.; Ahumada, Rodrigo; Hurley, Brett P.; Wingfield, Michael J.; Slippers, Bernard

The global diversity of Deladenus siricidicola in native and non-native populations Journal Article

In: Biological Control, vol. 132, pp. 57-65, 2019, ISSN: 10499644.

Queffelec, Josephine; Wooding, Amy; Greeff, Jaco; Garnas, Jeff R.; Hurley, Brett P; Wingfield, Michael J; Slippers, Bernard

Potential mechanisms that influence sex ratio variation in the invasive Hymenopteran Sirex noctilio in South Africa Journal Article

In: Ecology and Evolution, vol. 14, pp. 7966-7973, 2019.

Mutitu, Eston K.; Hoareau, Thierry B.; Hurley, Brett P.; Garnas, Jeffrey R.; Wingfield, Michael J.; Slippers, Bernard

Reconstructing routes of invasion of the Bronze Bug Thaumastocoris peregrinus ﴾Hemiptera: Thaumastocoridae﴿ Journal Article

In: Biological Invasions, vol. 22, pp. 2325–2335, 2019.

2018

Burgess, Treena; McDougall, Keith; Scott, Peter; Hardy, Giles; Garnas, Jeff

Predictors of Phytophthora diversity and community composition in natural areas across diverse Australian ecoregions Journal Article

In: Ecography, vol. 42, no. 1, pp. 1-14, 2018.

@article{7108,

title = {Predictors of Phytophthora diversity and community composition in natural areas across diverse Australian ecoregions},

author = {Treena Burgess and Keith McDougall and Peter Scott and Giles Hardy and Jeff Garnas},

url = {https://onlinelibrary.wiley.com/doi/abs/10.1111/ecog.03904?af=R},

year  = {2018},

date = {2018-01-01},

journal = {Ecography},

volume = {42},

number = {1},

pages = {1-14},

abstract = {Comprehensive understanding of the patterns and drivers of microbial diversity at a landscape scale is in its infancy, despite the recent ease by which soil communities can be characterized using massively parallel amplicon sequencing. Here we report on a comprehensive analysis of the drivers of diversity distribution and composition of the ecologically and economically important Phytophthora genus from 414 soil samples collected across Australia. We assessed 22 environmental and seven categorical variables as potential predictors of Phytophthora species richness, αandβ diversity, including both phylogenetically and non-phylogenically explicit methods. In addition, we classified each species as putatively native or introduced and examined the distribution with respect to putative origin. The two most widespread species, P. multivora and P. cinamomi, are introduced, though five of the ten most widely distributed species are putatively native. Introduced taxa comprised over 54% of Australia’s Phytophthora diversity and these species are known pathogens of annual and perennial crop habitats as well as urban landscapes and forestry. Patterns of composition were most strongly predicted by bioregion (R2=0.29) and ecoregion (R2=0.26) identity; mean precipitation of warmest quarter, mean temperature of the wettest quarter and latitude were also highly significant and described approximately 21%, 14% and 13% of variation in NMDS composition, respectively. We also found statistically significant evidence for phylogenetic over-dispersion with respect to key climate variables.This study provides a strong baseline for understanding biogeographical patterns in this important genus as well the impact of key plant pathogens and invasive Phytophthora species in natural ecosystems.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Burgess, Treena I.; Tan, Yu Pei; Garnas, Jeff; Edwards, Jacqueline; Scarlett, Kelly A.; Shuttleworth, Lucas A.; Daniel, Rosalie; Dann, Elizabeth K.; Parkinson, Louisamarie E.; Dinh, Quang; Shivas, Roger G.; Jami, Fahimeh

Current status of the Botryosphaeriaceae in Australia Journal Article

In: Australasian Plant Pathology, 2018, ISBN: 1448-6032.

Asbjornsen, Heidi; Campbell, John L.; D’Amato, Anthony W.; Garnas, Jeff; Gunn, John S.; Iverson, Louis R.; Ontl, Todd A.; Peters, Mathew W.; Shannon, P. Danielle

Forest management options for addressing drought in the Midwest and Northeast U.S. Booklet

2018.

Garnas, Jeff

Rapid evolution of insects to global environmental change: conceptual issues and empirical gaps Journal Article

In: Current Opinions in Insect Science, vol. 29, pp. 93–101, 2018.

2017

Wondafrash, Mesfin; Slippers, Bernard; Garnas, J.; Hurley, Brett

Parasitoid assemblage associated with a North American pine weevil in South Africa Journal Article

In: Agricultural and Forest Entomology, 2017.

Abstract | BibTeX

Burgess, Treena I.; White, Diane; McDougall, Keith M.; Garnas, Jeff; Dunstan, William A.; Catal`a, Santiago; Carnegie, Angus J.; Worboys, Stuart; Cahill, David; Vettraino, Anna-Maria; Stukely, Michael J. C.; Liew, Edward C. Y.; Paap, Trudy; Bose, Tanay; Migliorini, Duccio; Williams, Briony; Brigg, Frances; Crane, Colin; Rudman, Timothy; Hardy, Giles E. St J.

Distribution and diversity of Phytophthora across Australia Journal Article

In: Pacific Conservation Biology, vol. 23, pp. 1-13, 2017, ISSN: 1038-2097.

@article{RN26702,

title = {Distribution and diversity of Phytophthora across Australia},

author = {Treena I. Burgess and Diane White and Keith M. McDougall and Jeff Garnas and William A. Dunstan and Santiago Catal`a and Angus J. Carnegie and Stuart Worboys and David Cahill and Anna-Maria Vettraino and Michael J. C. Stukely and Edward C. Y. Liew and Trudy Paap and Tanay Bose and Duccio Migliorini and Briony Williams and Frances Brigg and Colin Crane and Timothy Rudman and Giles E. St J. Hardy},

url = {http://dx.doi.org/10.1071/PC16032},

doi = {10.1071/pc16032},

issn = {1038-2097},

year  = {2017},

date = {2017-01-01},

journal = {Pacific Conservation Biology},

volume = {23},

pages = {1-13},

abstract = {The introduction and subsequent impact of Phytophthora cinnamomi within native vegetation is one of the major conservation issues for biodiversity in Australia. Recently, many new Phytophthora species have been described from Australia’s native ecosystems; however, their distribution, origin, and potential impact remain unknown. Historical bias in Phytophthora detection has been towards sites showing symptoms of disease, and traditional isolation methods show variable effectiveness of detecting different Phytophthora species. However, we now have at our disposal new techniques based on the sampling of environmental DNA and metabarcoding through the use of high-throughput sequencing. Here, we report on the diversity and distribution of Phytophthora in Australia using metabarcoding of 640 soil samples and we compare the diversity detected using this technique with that available in curated databases. Phytophthora was detected in 65% of sites, and phylogenetic analysis revealed 68 distinct Phytophthora phylotypes. Of these, 21 were identified as potentially unique taxa and 25 were new detections in natural areas and/or new introductions to Australia. There are 66 Phytophthora taxa listed in Australian databases, 43 of which were also detected in this metabarcoding study. This study revealed high Phytophthora richness within native vegetation and the additional records provide a valuable baseline resource for future studies. Many of the Phytophthora species now uncovered in Australia’s native ecosystems are newly described and until more is known we need to be cautious with regard to the spread and conservation management of these new species in Australia’s unique ecosystems.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Olivier-Espejel, S.; Hurley, B. P.; Garnas, J.

Assessment of beetle diversity, community composition and potential threats to forestry using kairomone-baited traps Journal Article

In: Bulletin of Entomological Research, vol. 107, pp. 106-117, 2017, ISBN: 1475-2670 (Electronic)0007-4853 (Linking), (Olivier-Espejel, SHurley, B PGarnas, JENG2016/08/23 06:00Bull Entomol Res. 2016 Aug 22:1-12.).

@article{191,

title = {Assessment of beetle diversity, community composition and potential threats to forestry using kairomone-baited traps},

author = {S. Olivier-Espejel and B. P. Hurley and J. Garnas},

url = {https://dx.doi.org/10.1017/S0007485316000699},

isbn = {1475-2670 (Electronic)0007-4853 (Linking)},

year  = {2017},

date = {2017-01-01},

journal = {Bulletin of Entomological Research},

volume = {107},

pages = {106-117},

abstract = {Traps designed to capture insects during normal movement/dispersal, or via attraction to non-specific (plant) volatile lures, yield by-catch that carries valuable information about patterns of community diversity and composition. In order to identify potential native/introduced pests and detect predictors of colonization of non-native pines, we examined beetle assemblages captured in intercept panel traps baited with kairomone lures used during a national monitoring of the woodwasp, Sirex noctilio, in Southern Africa. We identified 50 families and 436 morphospecies of beetles from nine sites sampled in both 2008 and 2009 and six areas in 2007 (trap catch pooled by region) across a latitudinal and elevational gradient. The most diverse groups were mainly those strongly associated with trees, known to include damaging pests. While native species dominated the samples in terms of richness, the dominant species was the introduced bark beetle Orthotomicus erosus (Curculionidae: Scolytinae) (22 +/- 34 individuals/site). Four Scolytinae species without previous records in South Africa, namely Coccotrypes niger, Hypocryphalus robustus (formerly Hypocryphalus mangiferae), Hypothenemus birmanus and Xyleborus perforans, were captured in low abundances. Communities showed temporal stability within sites and strong biogeographic patterns across the landscape. The strongest single predictors of community composition were potential evaporation, latitude and maximum relative humidity, while the strongest multifactor model contained elevation, potential evaporation and maximum relative humidity. Temperature, land use variables and distance to natural areas did not significantly correlate with community composition. Non-phytophagous beetles were also captured and were highly diverse (32 families) perhaps representing important beneficial insects.},

note = {Olivier-Espejel, SHurley, B PGarnas, JENG2016/08/23 06:00Bull Entomol Res. 2016 Aug 22:1-12.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Mbenoun, M; Garnas, JR; Wingfield, M; Boyogueno, A; Roux, J

Metacommunity analyses of Ceratocystidaceae fungi across heterogeneous African savanna landscapes Journal Article

In: Fungal Ecology, vol. 28, pp. 76-85, 2017.

Identification and genetic diversity of two invasive Pissodes spp. Germar (Coleoptera: Curculionidae) in their introduced range in the southern hemisphere Journal Article

2016

Wondafrash, M.; Slippers, B.; Garnas, J.; Roux, G.; Foit, J.; Langor, D. W.; Hurley, B. P.

In: Biological Invasions, vol. 18, pp. 2283-2297, 2016, ISBN: 1387-3547, (Dr7zdTimes Cited:0Cited References Count:69).

@article{194,

title = {Identification and genetic diversity of two invasive Pissodes spp. Germar (Coleoptera: Curculionidae) in their introduced range in the southern hemisphere},

author = {M. Wondafrash and B. Slippers and J. Garnas and G. Roux and J. Foit and D. W. Langor and B. P. Hurley},

url = {http:/dx.doi.org/10.1007/s10530-016-1159-5},

isbn = {1387-3547},

year  = {2016},

date = {2016-08-01},

journal = {Biological Invasions},

volume = {18},

pages = {2283-2297},

abstract = {During the first half of the twentieth century, two accidental cases of introduction of Pissodes weevils were recorded from the southern hemisphere. The weevils in South Africa were identified as the deodar weevil (Pissodes nemorensis) and those in South America as the small banded pine weevil (Pissodes castaneus). Wide distribution of the two species in their invasive range, general difficulty in identifying some Pissodes spp., and the varying feeding and breeding behaviours of the species in South Africa has necessitated better evidence of species identity and genetic diversity of both species and population structure of the species in South Africa. Barcoding and the Jerry-to-Pat region of the COI gene were investigated. Morphometric data of the South African species was analysed. Our results confirmed the introduction of only one Pissodes species of North American origin to South Africa. However, this species is not P. nemorensis, but an unrecognized species of the P. strobi complex or a hybrid between P. strobi and P. nemorensis. Only P. castaneus, of European origin, was identified from South America. We identified ten mitochondrial DNA haplotypes from South Africa with evidence of moderate genetic structure among geographic populations. Terminal leader and bole-feeding weevils did not differ at the COI locus. A single haplotype was identified from populations of P. castaneus in South America. Results of the present study will have implications on quarantine, research and management of these insect species.},

note = {Dr7zdTimes Cited:0Cited References Count:69},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Garnas, Jeff R.; Auger-Rozenberg, M. A.; Roques, Alain; Bertelsmeier, Cleo; Wingfield, Michael J.; Saccaggi, Davina L.; Roy, Helen E.; Slippers, Bernard

Complex patterns of global spread in invasive insects: eco-evolutionary and management consequences Journal Article

In: Biological Invasions, vol. 18, pp. 935-952, 2016, ISBN: 1387-35471573-1464.

@article{185,

title = {Complex patterns of global spread in invasive insects: eco-evolutionary and management consequences},

author = {Jeff R. Garnas and M. A. Auger-Rozenberg and Alain Roques and Cleo Bertelsmeier and Michael J. Wingfield and Davina L. Saccaggi and Helen E. Roy and Bernard Slippers},

url = {http://dx.doi.org/10.1007/s10530-016-1082-9},

isbn = {1387-35471573-1464},

year  = {2016},

date = {2016-01-01},

journal = {Biological Invasions},

volume = {18},

pages = {935-952},

abstract = {The advent of simple and affordable tools for molecular identification of novel insect invaders and assessment of population diversity has changed the face of invasion biology in recent years. The widespread application of these tools has brought with it an emerging understanding that patterns in biogeography, introduction history and subsequent movement and spread of many invasive alien insects are far more complex than previously thought. We reviewed the literature and found that for a number of invasive insects, there is strong and growing evidence that multiple introductions, complex global movement, and population admixture in the invaded range are commonplace. Additionally, historical paradigms related to species and strain identities and origins of common invaders are in many cases being challenged. This has major consequences for our understanding of basic biology and ecology of invasive insects and impacts quarantine, management and biocontrol programs. In addition, we found that founder effects rarely limit fitness in invasive insects and may benefit populations (by purging harmful alleles or increasing additive genetic variance). Also, while phenotypic plasticity appears important post-establishment, genetic diversity in invasive insects is often higher than expected and increases over time via multiple introductions. Further, connectivity among disjunct regions of global invasive ranges is generally far higher than expected and is often asymmetric, with some populations contributing disproportionately to global spread. We argue that the role of connectivity in driving the ecology and evolution of introduced species with multiple invasive ranges has been historically underestimated and that such species are often best understood in a global context.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Hui, Cang; Richardson, David M.; Landi, Pietro; Minoarivelo, Henintsoa O.; Garnas, JR; Roy, Helen E.

Defining invasiveness and invasibility in ecological networks Journal Article

In: Biological Invasions, vol. 18, pp. 971-983, 2016.

@article{188,

title = {Defining invasiveness and invasibility in ecological networks},

author = {Cang Hui and David M. Richardson and Pietro Landi and Henintsoa O. Minoarivelo and JR Garnas and Helen E. Roy},

url = {http://dx.doi.org/10.1007/s10530-016-1076-7},

year = {2016},

date = {2016-01-01},

journal = {Biological Invasions},

volume = {18},

pages = {971-983},

abstract = {The success of a biological invasion is context dependent, and yet two key concepts—the invasiveness of species and the invasibility of recipient ecosystems—are often defined and considered separately. We propose a framework that can elucidate the complex relationship between invasibility and invasiveness. It is based on trait-mediated interactions between species and depicts the response of an ecological network to the intrusion of an alien species, drawing on the concept of community saturation. Here, invasiveness of an introduced species with a particular trait is measured by its per capita population growth rate when the initial propagule pressure of the introduced species is very low. The invasibility of the recipient habitat or ecosystem is dependent on the structure of the resident ecological network and is defined as the total width of an opportunity niche in the trait space susceptible to invasion. Invasibility is thus a measure of network instability. We also correlate invasibility with the asymptotic stability of resident ecological network, measured by the leading eigenvalue of the interaction matrix that depicts trait-based interaction intensity multiplied by encounter rate (a pairwise product of propagule pressure of all members in a community). We further examine the relationship between invasibility and network architecture, including network connectance, nestedness and modularity. We exemplify this framework with a trait-based assembly model under perturbations in ways to emulate fluctuating resources and random trait composition in ecological networks. The maximum invasiveness of a potential invader (greatest intrinsic population growth rate) was found to be positively correlated with invasibility of the recipient ecological network. Additionally, ecosystems with high network modularity and high ecological stability tend to exhibit high invasibility. Where quantitative data are lacking we propose using a qualitative interaction matrix of the ecological network perceived by a potential invader so that the structural network stability and invasibility can be estimated from the literature or from expert opinion. This approach links network structure, invasiveness and invasibility in the context of trait-mediated interactions, such as the invasion of insects into mutualistic and antagonistic networks.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

The success of a biological invasion is context dependent, and yet two key concepts—the invasiveness of species and the invasibility of recipient ecosystems—are often defined and considered separately. We propose a framework that can elucidate the complex relationship between invasibility and invasiveness. It is based on trait-mediated interactions between species and depicts the response of an ecological network to the intrusion of an alien species, drawing on the concept of community saturation. Here, invasiveness of an introduced species with a particular trait is measured by its per capita population growth rate when the initial propagule pressure of the introduced species is very low. The invasibility of the recipient habitat or ecosystem is dependent on the structure of the resident ecological network and is defined as the total width of an opportunity niche in the trait space susceptible to invasion. Invasibility is thus a measure of network instability. We also correlate invasibility with the asymptotic stability of resident ecological network, measured by the leading eigenvalue of the interaction matrix that depicts trait-based interaction intensity multiplied by encounter rate (a pairwise product of propagule pressure of all members in a community). We further examine the relationship between invasibility and network architecture, including network connectance, nestedness and modularity. We exemplify this framework with a trait-based assembly model under perturbations in ways to emulate fluctuating resources and random trait composition in ecological networks. The maximum invasiveness of a potential invader (greatest intrinsic population growth rate) was found to be positively correlated with invasibility of the recipient ecological network. Additionally, ecosystems with high network modularity and high ecological stability tend to exhibit high invasibility. Where quantitative data are lacking we propose using a qualitative interaction matrix of the ecological network perceived by a potential invader so that the structural network stability and invasibility can be estimated from the literature or from expert opinion. This approach links network structure, invasiveness and invasibility in the context of trait-mediated interactions, such as the invasion of insects into mutualistic and antagonistic networks.

Hajek, Ann E.; Hurley, Brett P.; Kenis, Marc; Garnas, Jeffrey R.; Bush, Samantha J.; Wingfield, Michael J.; Lenteren, Joop C. Van; Cock, Matthew J. W.

Exotic biological control agents: a solution or contribution to arthropod invasions? Journal Article

In: Biological Invasions, vol. 18, pp. 953-969, 2016.

@article{186,

title = {Exotic biological control agents: a solution or contribution to arthropod invasions?},

author = {Ann E. Hajek and Brett P. Hurley and Marc Kenis and Jeffrey R. Garnas and Samantha J. Bush and Michael J. Wingfield and Joop C. Van Lenteren and Matthew J. W. Cock},

url = {http://dx.doi.org/10.1007/s10530-016-1075-8},

year  = {2016},

date = {2016-01-01},

journal = {Biological Invasions},

volume = {18},

pages = {953-969},

abstract = {Biological control is a valuable and effective strategy for controlling arthropod pests and has been used extensively against invasive arthropods. As one approach for control of invasives, exotic natural enemies  from the native range of a pest are introduced to areas where control is needed. Classical biological control began to be used in the late 1800s and its use increased until, beginning in 1983, scientists began raising significant concerns and questions about nontarget and indirect effects that can be caused by these introductions. In recent years, similar issues have been raised about augmentative use of exotic natural enemies. Subsequently, international guidelines, national regulations and scientific methods being used for exotic natural enemies in biological control have changed to require appropriate specificity testing, risk assessment and regulatory oversight before exotic natural enemies can be released. National and international standards aimed at minimizing risk have increased awareness and promoted more careful consideration of the costs and benefits associated with biological control. The barriers to the implementation of classical and augmentative biological control with exotic natural enemies now are sometimes difficult and, as a consequence, the numbers of classical biological control programs and releases have decreased significantly. Based in part on this new, more careful approach, classical biological control programs more recently undertaken are increasingly aimed at controlling especially damaging invasive arthropod pests that otherwise cannot be controlled. We examine evidence for these revised procedures and regulations aimed at increasing success and minimizing risk. We also discuss limitations linked to the apparent paucity of post-introduction monitoring and inherent unpredictability of indirect effects.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Fitza, Katrin N. E.; Tabata, Masanobu; Kanzaki, Natsumi; Kimura, Koki; Garnas, Jeff; Slippers, Bernard

Host specificity and diversity of Amylostereum associated with Japanese siricids Journal Article

In: Fungal Ecology, vol. 24, pp. 76-81, 2016, ISBN: 17545048.

Hurley, Brett P.; Garnas, Jeff; Wingfield, Michael J.; Branco, Manuela; Richardson, David M.; Slippers, Bernard

Increasing numbers and intercontinental spread of invasive insects on eucalypts Journal Article

In: Biological Invasions, vol. 18, pp. 921-933, 2016.

Wingfield, Michael J.; Garnas, Jeff R.; Hajek, Ann; Hurley, Brett P.; Beer, Z. Wilhelm De; Taeru,

Novel and co-evolved associations between insects and microorganisms as drivers of forest pestilence Journal Article

In: Biological Invasions, vol. 18, pp. 1045-1056, 2016.

Hill, M. P.; Bertelsmeier, C; Clusella-Trullas, S; Garnas, JR; Robertson, M. P; Terblanche, J. S

Predicted decrease in global climate suitability masks regional complexity of invasive fruit fly species response to climate change Journal Article

In: Biological Invasions, vol. 18, pp. 883-891, 2016.

@article{187,

title = {Predicted decrease in global climate suitability masks regional complexity of invasive fruit fly species response to climate change},

author = {M. P. Hill and C Bertelsmeier and S Clusella-Trullas and JR Garnas and M. P Robertson and J. S Terblanche},

url = {http://dx.doi.org/10.1007/s10530-016-1078-5},

year  = {2016},

date = {2016-01-01},

journal = {Biological Invasions},

volume = {18},

pages = {883-891},

abstract = {Climate change affects the rate of insect invasions as well as the abundance, distribution and impacts of such invasions on a global scale. Among the principal analytical approaches to predicting and understanding future impacts of biological invasions are Species Distribution Models (SDMs), typically in the form of correlative Ecological Niche Models (ENMs). An underlying assumption of ENMs is that species–environment relationships remain preserved during extrapolations in space and time, although this is widely criticised. The semi-mechanistic modelling platform, CLIMEX, employs a top-down approach using species ecophysiological traits and is able to avoid some of the issues of extrapolation, making it highly applicable to investigating biological invasions in the context of climate change. The tephritid fruit flies (Diptera: Tephritidae) comprise some of the most successful invasive species and serious economic pests around the world. Here we project 12 tephritid species CLIMEX models into future climate scenarios to examine overall patterns of climate suitability and forecast potential distributional changes for this group. We further compare the aggregate response of the group against species-specific responses. We then consider additional drivers of biological invasions to examine how invasion potential is influenced by climate, fruit production and trade indices. Considering the group of tephritid species examined here, climate change is predicted to decrease global climate suitability and to shift the cumulative distribution poleward. However, when examining species-level patterns, the predominant directionality of range shifts for 11 of the 12 species is eastward. Most notably, management will need to consider regional changes in fruit fly species invasion potential where high fruit production, trade indices and predicted distributions of these flies overlap.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Roques, Alain; Auger-Rozenberg, Marie-Anne; Blackburn, Tim M.; Garnas, JR; Pyšek, Petr; Rabitsch, Wolfgang; Richardson, David M.; Wingfield, Michael J.; Liebhold, Andrew M.; Duncan, Richard P.

Temporal and interspecific variation in rates of spread for insect species invading Europe during the last 200 years Journal Article

In: Biological Invasions, vol. 18, pp. 907-920, 2016.

@article{192,

title = {Temporal and interspecific variation in rates of spread for insect species invading Europe during the last 200 years},

author = {Alain Roques and Marie-Anne Auger-Rozenberg and Tim M. Blackburn and JR Garnas and Petr Pyšek and Wolfgang Rabitsch and David M. Richardson and Michael J. Wingfield and Andrew M. Liebhold and Richard P. Duncan},

url = {http://dx.doi.org/10.1007/s10530-016-1080-y},

year  = {2016},

date = {2016-01-01},

journal = {Biological Invasions},

volume = {18},

pages = {907-920},

abstract = {Globalization is triggering an increase in the establishment of alien insects in Europe, with several species having substantial ecological and economic impacts. We investigated long-term changes in rates of species spread following establishment. We used the total area of countries invaded by 1171 insect species for which the date of first record in Europe is known, to estimate their current range radius (calculated as [invaded area]0.5/π). We estimated initial rates of radial spread and compared them among different groups of insects for all years (1800–2014) and for a subset of more recent decades (1950–2014). Accidentally introduced species spread faster than intentionally introduced species. Considering the whole period 1800–2014, spread patterns also differ between feeding guilds, with decreasing spread rates over residence time in herbivores but not in detritivores or parasitic species. These decreases for herbivorous species appeared mainly in those associated with herbaceous plants and crops rather than woody plants. Initial spread rate was significantly greater for species detected after 1990, roughly 3–4 times higher than for species that arrived earlier. We hypothesize that the political changes in Europe following the collapse of the Iron Curtain in 1989, and the further dismantling of customs checkpoints within an enlarged European Union (EU) have facilitated the faster spread of alien insect species. Also, the number of species first recorded in the Eastern Bloc of the politically-divided Europe before 1989 was lower than for the rest of Europe. A detailed analysis of six recent invaders indicated a dominant role of long-distance translocations related to human activities, especially with the plant trade, in determining rates of spread.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

2015

Nadel, R. L.; Wingfield, M. J.; Scholes, M. C.; Garnas, J. R.; Lawson, S. A.; Slippers, B.

Population dynamics of Thaumastocoris peregrinus in Eucalyptus plantations of South Africa Journal Article

In: Journal of Pest Science, vol. 88, pp. 97-106, 2015, ISBN: 1612-4758, (Cc0pwTimes Cited:1Cited References Count:53).

@article{183,

title = {Population dynamics of Thaumastocoris peregrinus in Eucalyptus plantations of South Africa},

author = {R. L. Nadel and M. J. Wingfield and M. C. Scholes and J. R. Garnas and S. A. Lawson and B. Slippers},

url = {http://dx.doi.org/10.1007/s10340-014-0558-6},

isbn = {1612-4758},

year  = {2015},

date = {2015-03-01},

journal = {Journal of Pest Science},

volume = {88},

pages = {97-106},

abstract = {Thaumastocoris peregrinus is a sap-sucking insect that infests non-native Eucalyptus plantations in Africa, New Zealand, South America and parts of Southern Europe, in addition to street trees in parts of its native range of Australia. In South Africa, pronounced fluctuations in the population densities have been observed. To characterise spatiotemporal variability in T. peregrinus abundance and the factors that might influence it, we monitored adult population densities at six sites in the main eucalypt growing regions of South Africa. At each site, twenty yellow sticky traps were monitored weekly for 30 months, together with climatic data. We also characterised the influence of temperature on growth and survival experimentally and used this to model how temperature may influence population dynamics. T. peregrinus was present throughout the year at all sites, with annual site-specific peaks in abundance. Peaks occurred during autumn (February-April) for the Pretoria site, summer (November-January) for the Zululand site and spring (August-October) for the Tzaneen, Sabie and Piet Retief monitoring sites. Temperature (both experimental and field-collected), humidity and rainfall were mostly weakly, or not at all, associated with population fluctuations. It is clear that a complex interaction of these and other factors (e.g. host quality) influence population fluctuations in an annual, site specific cycle. The results obtained not only provide insights into the biology of T. peregrinus, but will also be important for future planning of monitoring and control programs using semiochemicals, chemical insecticides or biological control agents.},

note = {Cc0pwTimes Cited:1Cited References Count:53},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Hurley, Brett P.; Garnas, Jeff; Cooperband, Miriam F.

Assessing trap and lure effectiveness for the monitoring of Sirex noctilio Journal Article

In: Agricultural and Forest Entomology, vol. 17, pp. 64-70, 2015, ISBN: 14619555.

2014

Garnas, J.; Groden, E.; Drummond, F. A.

Mechanisms of competitive displacement of native ant fauna by invading Myrmica rubra (Hymenoptera: Formicidae) populations Journal Article

In: Environmental Entomology, vol. 43, pp. 1496-506, 2014, ISBN: 1938-2936 (Electronic)0046-225X (Linking), (Garnas, JeffreyGroden, EleanorDrummond, Francis Aeng2014/10/01 06:00Environ Entomol. 2014 Dec;43(6):1496-506. doi: 10.1603/EN14079. Epub 2014 Sep 29.).

@article{180,

title = {Mechanisms of competitive displacement of native ant fauna by invading Myrmica rubra (Hymenoptera: Formicidae) populations},

author = {J. Garnas and E. Groden and F. A. Drummond},

url = {http://dx.doi.org/10.1603/EN14079},

isbn = {1938-2936 (Electronic)0046-225X (Linking)},

year  = {2014},

date = {2014-12-01},

journal = {Environmental Entomology},

volume = {43},

pages = {1496-506},

abstract = {Exotic ants have become invasive in many regions around the world, with variable ecological impacts. Postinvasion, native ant communities are often found to be depauperate, though the causes of this apparent lack of coexistence are rarely well known. Myrmica rubra (L.), a Palearctic Myrmecine ant, is currently expanding its range as an invasive in North America. This aggressive ant forms dense, patchy local infestations and appears to aggressively displace native ant fauna. We measured behavioral interactions and rates of recruitment in experimental field assays pitting native foragers against captive colonies of M. rubra at tuna-jelly or aphid baits in uninfested areas of Mt. Desert Island, ME. Behavioral interactions were idiosyncratic with respect to the native opponent, but M. rubra generally showed significantly higher levels of recruitment, aggression, and displacement of native foragers. As with other invasive ant species shown to have broken the "dominance-discovery trade-off," M. rubra was consistently faster to discover baits and disproportionately displaced native foragers, providing a plausible proximate mechanism for native ant exclusion. Finally, we surveyed ant recruitment at baits for 24 h in August 2004 at four sites with varying M. rubra abundance but found little evidence of temporal niche partitioning. Taken together, these results indicate competitive superiority by M. rubra with respect to native ant communities of the northeastern North America and suggest direct aggression and competitive exclusion at food resources can lead to local native displacement.},

note = {Garnas, JeffreyGroden, EleanorDrummond, Francis Aeng2014/10/01 06:00Environ Entomol. 2014 Dec;43(6):1496-506. doi: 10.1603/EN14079. Epub 2014 Sep 29.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Lantschner, M. Victoria; Villacide, José M.; Garnas, Jeffrey R.; Croft, Philip; Carnegie, Angus J.; Liebhold, Andrew M.; Corley, Juan C.

Temperature explains variable spread rates of the invasive woodwasp Sirex noctilio in the Southern Hemisphere Journal Article

In: Biological Invasions, vol. 16, pp. 329-339, 2014, ISBN: 1387-35471573-1464.

2013

Kemler, M.; Garnas, J.; Wingfield, M. J.; Gryzenhout, M.; Pillay, K. A.; Slippers, B.

Ion Torrent PGM as tool for fungal community analysis: A case study of endophytes in Eucalyptus grandis reveals high taxonomic diversity Journal Article

In: PLoS OnePlos OnePlos One, vol. 8, pp. e81718 (9 pages), 2013, ISBN: 1932-6203 (Electronic)1932-6203 (Linking), (Kemler, MartinGarnas, JeffWingfield, Michael JGryzenhout, MariekaPillay, Kerry-AnneSlippers, BernardengPLoS One. 2013 Dec 16;8(12):e81718. doi: 10.1371/journal.pone.0081718. eCollection 2013.).

Biology and rearing of Cleruchoides noackae (Hymenoptera: Mymaridae), an egg parasitoid for the biological control of Thaumastocoris peregrinus (Hemiptera: Thaumastocoridae) Journal Article

@article{176,

title = {Ion Torrent PGM as tool for fungal community analysis: A case study of endophytes in Eucalyptus grandis reveals high taxonomic diversity},

author = {M. Kemler and J. Garnas and M. J. Wingfield and M. Gryzenhout and K. A. Pillay and B. Slippers},

url = {http://dx.doi.org/10.1371/journal.pone.0081718},

isbn = {1932-6203 (Electronic)1932-6203 (Linking)},

year  = {2013},

date = {2013-12-01},

journal = {PLoS OnePlos OnePlos One},

volume = {8},

pages = {e81718 (9 pages)},

publisher = {Public Library of Science},

edition = {2013/12/21},

abstract = {The Kingdom Fungi adds substantially to the diversity of life, but due to their cryptic morphology and lifestyle, tremendous diversity, paucity of formally described specimens, and the difficulty in isolating environmental strains into culture, fungal communities are difficult to characterize. This is especially true for endophytic communities of fungi living in healthy plant tissue. The developments in next generation sequencing technologies are, however, starting to reveal the true extent of fungal diversity. One of the promising new technologies, namely semiconductor sequencing, has thus far not been used in fungal diversity assessments. In this study we sequenced the internal transcribed spacer 1 (ITS1) nuclear encoded ribosomal RNA of the endophytic community of the economically important tree, Eucalyptus grandis, from South Africa using the Ion Torrent Personal Genome Machine (PGM). We determined the impact of various analysis parameters on the interpretation of the results, namely different sequence quality parameter settings, different sequence similarity cutoffs for clustering and filtering of databases for removal of sequences with incomplete taxonomy. Sequence similarity cutoff values only had a marginal effect on the identified family numbers, whereas different sequence quality filters had a large effect (89 vs. 48 families between least and most stringent filters). Database filtering had a small, but statistically significant, effect on the assignment of sequences to reference sequences. The community was dominated by Ascomycota, and particularly by families in the Dothidiomycetes that harbor well-known plant pathogens. The study demonstrates that semiconductor sequencing is an ideal strategy for environmental sequencing of fungal communities. It also highlights some potential pitfalls in subsequent data analyses when using a technology with relatively short read lengths.},

note = {Kemler, MartinGarnas, JeffWingfield, Michael JGryzenhout, MariekaPillay, Kerry-AnneSlippers, BernardengPLoS One. 2013 Dec 16;8(12):e81718. doi: 10.1371/journal.pone.0081718. eCollection 2013.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Mutitu, Eston K; Garnas, Jeffrey R; Hurley, Brett P; Wingfield, Michael J; Harney, Marlene; Bush, Samantha J; Slippers, Bernard

In: Journal of Economic Entomology, vol. 106, pp. 1979-1985, 2013.

@article{177,

title = {Biology and rearing of Cleruchoides noackae (Hymenoptera: Mymaridae), an egg parasitoid for the biological control of Thaumastocoris peregrinus (Hemiptera: Thaumastocoridae)},

author = {Eston K Mutitu and Jeffrey R Garnas and Brett P Hurley and Michael J Wingfield and Marlene Harney and Samantha J Bush and Bernard Slippers},

url = {http://dx.doi.org/10.1603/EC13135},

year  = {2013},

date = {2013-10-01},

journal = {Journal of Economic Entomology},

volume = {106},

pages = {1979-1985},

abstract = {Cleruchoides noackae Lin and Huber (Hymenoptera: Mymaridae) is a solitary egg parasitoid of Thaumastocoris peregrinus Carpintero and Dellapé (Hemiptera: Thaumastocoridae). The parasitoid was first described in 2009 and its biology and rearing are poorly understood. A key obstacle to the use of C. noackae as a biological control agent has been the ability to consistently rear it under quarantine conditions. This study reports on a series of experiments conducted in quarantine to rear C. noackae and to examine the effects of diet on longevity, per capita reproduction, and progeny sex ratio, as well as to determine development time, and preference and suitability of host eggs of different ages. When supplemented with honey solution, the longevity of C. noackae females increased significantly by 2.4 d and that of males by 1.7 d, relative to the unfed adults. Mean per capita reproduction for the honey-fed wasps was 7.7 offspring per female, with progeny sex ratio slightly skewed toward males. Mean percentage parasitism was 32.2%. C. noackae was capable of parasitizing and completing development from oviposition to adult eclosion within 15.7 d in host eggs between 0 and 5 d old. The ability of C. noackae to parasitize a wide range of host egg ages increases the period of vulnerability of T. peregrinus to attack, increasing its potential efficacy as a biological control agent. The methods and results reported here represent a crucial step in the ongoing efforts to develop this potential biological control system.},

keywords = {},

pubstate = {published},

tppubtype = {article}

}

Wooding, A L; Wingfield, M. J.; Hurley, B. P.; Garnas, Jeffrey R; Groot, Peter; Slippers, B

Lack of fidelity revealed in an insect-fungal mutualism after invasion Journal Article

In: Biology Letters, vol. 9, pp. 1-4, 2013.