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Plant-arthropod interactions : domatia and mites in the genus Coprosma (Rubiaceae)O'Connell, Dean Michael, n/a January 2009 (has links)
Plant-based defence mutualisms involve aspects of plant morphology that influence the performance of plant parasites, their natural enemies and trophic interactions. Leaf domatia, small indentations on the underside of leaves, can be structurally complex, and are often inhabited by potentially beneficial mites and other arthropods. Plant morphological traits such as domatia that enhance mutualistic relationships may result in increased plant growth rates, and reproductive success. New Zealand supports ~60 plant species that have domatia, the most speciose genus being Coprosma. The aim of this thesis was to examine factors that affect the production of leaf domatia and their relationship with foliar mite assemblages. The three main objectives of this thesis are: First, to investigate the production of foliar domatia and their susceptibility to limited resources, particularly to carbon availability. Second, to test if domatia are inducible structures during leaf ontogeny in the presence of foliar mites and/or fungi. Finally, to explore the effect of domatia availability on foliar mite assemblages on leaves with and without resident mites. This thesis tested the stated objectives using C. lucida, C. ciliata, C. foetidissima and C. rotundifolia, with a combination of field investigations and controlled manipulative experiments. The cost of domatia production was investigated using two field surveys and two controlled experiments. Under natural conditions the relationship between leaf morphology and domatia were measured in situ and across an altitudinal gradient. The experimental manipulations used carbon and nutrient stress, induced by temperature, light and fertilizer application. The second objective was experimentally tested under field conditions by manipulating foliar mites and fungal densities on C. rotundifolia. The third objective was investigated by manipulating domatia availability on C. lucida shrubs across three different vegetation types. Under field conditions, the number of domatia per leaf was associated with leaf morphology in C. lucida and C. foetidissima, but not C. rotundifolia. Foliar carbon showed a positive, but weak association with domatia production in C. foetidissima and C. ciliata. Altitudinal induced-carbon stress on domatia production was ambiguous. Domatia production in C. foetidissima was positively associated to altitude in field survey (1), and negatively associated in the second survey, with no correlation found between carbon and altitude. Experimental C. rotundifolia shrubs held under elevated night-time temperatures showed a 2.5 fold increase in respiration, a 34% to 91% decrease in daily carbon gain, and 38% decrease in domatia per leaf mass. Domatia production showed no significant differences under nutrient stress. The results showed little evidence to support a role for induction of domatia. Domatia production in new leaves was similar across all experimental treatments. Diverse vegetation types supported 60% higher mite species. Leaves with domatia supported ~22 to 66% higher mite densities, greater colonisation success and more diverse mite assemblages, than those without domatia. In the pastoral vegetation, the absence of predatory mites on experimental shrubs resulted in no differences in fungivorous mite densities regardless of domatia availability. Plant investment in foliar domatia appears associated with the number of available sites on the leaf under field conditions. The role of carbon availability during leaf ontogeny suggests a complex and highly variable association with domatia production. Domatia are constitutive defence structures that influence mite assemblages, mediating both beneficial and antagonistic relationships. This thesis concludes that domatia are in part, carbon-based non-inducible structures that influence mite assemblages, plant-mite and mite-mite interactions, and increase the probability of successful colonisation.
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Genome-enabled discovery and characterization of type III effector-encoding genes of plant symbiotic bacteriaKimbrel, Jeffrey A. 13 March 2012 (has links)
Symbiosis is the close and protracted interaction between organisms. The molecular interactions that occur during symbiosis are complex with multiple barriers that must be overcome. Many Gram-negative, host-associated bacteria use a type III secretion system to mediate associations with their eukaryotic hosts. This secretion system is a specialized apparatus for the injection of type III effector proteins directly into host cells, which in the case of plant pathogens, are collectively necessary to modulate host defense. The type III secretion system is not a mechanism exclusive to pathogens, however, as many strains of commensal Pseudomonas fluorescens and mutualistic rhizobia demonstrably require a type III secretion system to interact with their host plants. The work presented in this thesis describes genome-enabled approaches for characterizing type III effector genes across the range of plant symbiosis. Using high-throughput sequencing technology, draft genome sequences were generated for the plant pathogen, Xanthomonas hortorum pv. carotae M081, the plant commensal, Pseudomonas fluorescens WH6, and six strains from the plant mutualists Sinorhizobium fredii and Bradyrhizobium japonicum. Analyses of the draft genome sequences and publicly available finished sequences contributed insights into mechanisms of host-association and to increasing the inventory of type III effector sequences as well as developing methods directly applicable for agriculture. Finally, characterization of the genetic diversity of type III effectors from rhizobia shows that collections of type III effectors of mutualists are static, with little diversity in content and sequence variation. This represents the first comprehensive cataloging of type III effector from species of mutualistic bacteria and the first to provide evidence for purifying selection of this important class of genes. / Graduation date: 2012
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Redes mutualísticas na avaliação da restauração da Mata Atlântica = Mutualistic networks in evaluation of restoration in the Atlantic forest / Mutualistic networks in evaluation of restoration in the Atlantic forestSilva, Fernanda Ribeiro da, 1978- 05 May 2015 (has links)
Orientadores: Ricardo Ribeiro Rodrigues, Marco Aurélio Pizo Ferreira / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-27T12:03:15Z (GMT). No. of bitstreams: 1
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Previous issue date: 2015 / Resumo: As atividades humanas têm levado à perda de habitats e da biodiversidade na floresta Atlântica. A restauração ecológica é uma estratégia para a reconstrução desse bioma e deve incluir não só o restabelecimento das espécies, mas também das complexas interações e funções ecológicas que essas interações fornecem ao ecossistema. Um desses importantes processos é a dispersão de sementes realizada pelos animais frugívoros. A dispersão de sementes pode ser analisada numa abordagem de redes de interações, úteis no entendimento do funcionamento do ecossistema. Nós estudamos redes de dispersão de sementes em três áreas restauradas a 15, 25 e 57 anos atrás, escala temporal raramente estudada em estudos de restauração. Nós investigamos mudanças na estrutura das redes (aninhamento, modularidade e especialização da rede) em cada uma dessas comunidades ao longo do tempo de restauração. Embora o tamanho da rede e o número de interações tenham aumentado com a restauração, as espécies que compuseram a rede foram generalistas, sendo que os grandes frugívoros estiveram ausentes. Contrário a nossa expectativa, a riqueza de espécies foi maior na área de 25 anos, talvez devido ao plantio ter sido realizado com maior número de espécies. O aninhamento foi baixo nas três redes, sendo maior na área de idade intermediária. Entretanto a área mais antiga foi significativamente modular e apresentou alta especialização. Estes resultados sugerem que 57 anos após a restauração a complexidade das redes de interações mutualísticas aumentou, assim melhorando as funções ecossistêmicas na floresta Atlântica. Nós juntamos as três redes de dispersão de sementes restauradas em uma para identificar a contribuição individual das espécies na organização e funcionamento da rede, medidas pelo aninhamento, modularidade e força de interação. Através dessas abordagens apontamos as espécies e os grupos funcionais mais importantes para a resiliência e persistência das redes de dispersão de sementes e que devem ser priorizados nas ações de restauração da Mata Atlântica / Abstract: Human activities have lead to the loss of habitats and biodiversity in the Atlantic Rain Forest in Brazil. Ecological restoration aims to rebuild this biome and should include not only the reinstatement of species, but the reestablishment of complex ecological interactions and the ecological functions that they provide. One such function is seed dispersal, which is provided by the interactions between animal frugivores and plants. We studied seed dispersal networks in three different tropical forest sites restored 15, 25 and 57 years ago, temporal scales rarely observed in restoration studies. We investigated changes in network structure (nestedness, modularity and network specialization) in these communities over restoration time. Although network size and the number of interactions increased with time since restoration, the networks were composed of generalist birds, and the large frugivores remained absent. Contrary to our expectations though, species richness was highest in the 25 years old site maybe due the highest number of species used in the planting. Nestedness values were low in all three networks, but the highest nestedness was observed in the intermediate aged site. However, the oldest network was significantly modular and showed higher complementary specialization. These results suggest that, 57 years after restoration, the complexity of mutualistic interactions in seed dispersal networks has increased, this enhancing ecosystem function in the Atlantic forest. Furthermore, we merged all three networks in a big one to identify which are the most important species in terms of nerwork organization (modularity and nestedness) and interaction strength. Through this approach we point out species and their functional groups most important to persistence of seed dispersal networks. These species and their functional groups should be indicated to maximize the restoration in the Atlantic forest / Doutorado / Biologia Vegetal / Doutora em Biologia Vegetal
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Redes de interação entre morcegos frugívoros e plantas = variação geográfica e conservação de nicho / Interaction networks between frugivorous bats and plants : geographical variation and niche conservatismMarquitti, Flávia Maria Darcie 18 August 2018 (has links)
Orientador: Paulo Roberto Guimarães Júnior / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-18T07:48:51Z (GMT). No. of bitstreams: 1
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Previous issue date: 2011 / Resumo: Os mutualismos são interações importantes do ponto de vista ecológico e evolutivo, uma vez que influenciam a sobrevivência de diversos organismos, podendo determinar a organização da comunidade. Dada a importância ecológica e evolutiva das interações mutualísticas, é importante estudar quais fatores influenciam a sua organização. Como organismos aparentados compartilham características fenotípicas similares, é comum que espécies filogeneticamente próximas interajam com um conjunto de espécies similar, levando a um padrão conhecido por conservação filogenética do nicho. Apesar de este padrão ocorrer com frequencia, condições bióticas e abióticas locais podem levar à variação geográfica nas interações. A presença ou ausência de potenciais parceiros mutualísticos também podem alterar o padrão local de interações de uma espécie. Estudando interações entre morcegos frugívoros e plantas, investiguei como os padrões de interação de espécies em dez redes mutualísticas variavam conforme a distribuição geográfica. Nesse sentido, duas hipóteses principais guiaram este trabalho: a hipótese da conservação de nicho das interações e a hipótese da variação geográfica das interações. Caracterizei o padrão de interação das espécies de morcegos nas redes por meio de diferentes métricas usadas no estudo de redes ecológicas. Analisei a conservação de nicho das interações e a variação geográfica de espécies de morcego que ocorreram em um maior número de redes. Espécies filogeneticamente próximas não tenderam a apresentar padrões de interação mais parecidos entre si. Algumas das espécies mais frequentes apresentaram características dos padrões de interação em gradiente ou mosaico ao longo de sua distribuição geográfica. Estes resultados evidenciam que algumas características do padrão de interação de morcegos frugívoros, como grau de generalismo e o grau padronizado dentro do módulo são conservadas pela filogenia. No entanto algumas espécies apresentaram o grau de generalismo e o papel em relação aos módulos da rede variando ao longo da geografia, seguindo previsões da teoria do mosaico geográfico coevolutivo / Abstract: Mutualisms are important interactions to ecology and evolution because they affect the survivorship of many organisms and may shape community organization. Therefore, it is important to study which factors affect their organization. As related organisms share similar phenotypic traits, it is common that close phylogenetic species interact with a similar set of species, resulting in a pattern known as phylogenetic niche conservatism. Although this pattern frequently occurs, biotic and abiotic local conditions may lead to geographic variation of the interactions. The presence or absence of potential mutualistic partners may also change local interactions of a species. I studied interactions between frugivorous bats and plants and I investigated how species interactions patterns varied geographically across ten mutualistic networks. Two main hypotheses guided this work: the interaction niche conservatism hypothesis and the geographical variation hypothesis. I delineated the interaction patterns of bat species in the networks through different metrics used in ecological network studies. I analyzed the niche conservatism and geographical variation of bat species which occurred frequently in the networks. Related species did not tend to have similar patterns of interaction. Within their geographical range, some species vary markedly in their patterns of interaction and this variation often occurs as mosaics or, less frequently, as gradients. These results point out that some patterns of interaction of frugivorous bats, as the specialization degree and the standardized within-module degree, are conserved by phylogeny. However, some species showed variations through geography both in the specialization degree and in their role regarding the network modules, leading to a geographic mosaic of coevolution with potential implications to ecology and coevolution / Mestrado / Ecologia / Mestre em Ecologia
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A predação de formigas por Rhinoleucophenga sp. nov. (Diptera, Drosophilidae) e seus efeitos no mutualismo entre formigas e Qualea grandiflora (Vochysiaceae) / Ant predation bu Rhinoleucophenga sp. nov (Diptera, Drosophilidae) and its effect on the mutualism between ants and Qualea grandiflora (Vochysiaceae)Vidal, Mayra Cadorin, 1989- 23 August 2018 (has links)
Orientadores: Paulo Sergio Moreira Carvalho de Oliveira, Sebastian Felipe Sendoya Echeverry / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-23T06:11:49Z (GMT). No. of bitstreams: 1
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Previous issue date: 2013 / Resumo: Exploradores do mutualismo - indivíduos que utilizam recursos/serviços produzidos pelos mutualistas sem recompensá-lo - podem trazer sérios danos aos mutualistas explorados, principalmente quando acaba matando um dos parceiros mutualistas. Plantas portadoras de NEFs podem manter mutualismos com formigas visitantes, que defendem a planta contra insetos herbívoros. No cerrado de Itirapina (SP), encontramos larvas de uma nova espécie de díptero do gênero Rhinoleucophenga (Drosophilidae) que constroem abrigos de consistência pegajosa em cima dos NEFs de Q. grandiflora. Assim, larvas de Rhinoleucophenga podem interferir no mutualismo formiga-planta, agindo potencialmente como exploradora dessa interação. O presente estudo teve como objetivos principais investigar a história natural dessas larvas, principalmente aspectos do comportamento e interação com Qualea e formigas, e analisar seu possível efeito sobre o mutualismo formiga-Q.grandiflora. Durante observações de campo comprovamos que formigas e outros insetos visitantes dos NEFs podem ficar presos ao abrigo larval e servir de alimento para o díptero. Larvas de Rhinoleucophenga sp. nov. ocorrem em 85% dos indivíduos de Q. grandiflora, principalmente na época chuvosa ocupando preferencialmente nectários ativos, perto do ápice e na face abaxial dos ramos. No levantamento da mirmecofauna visitante de Q. grandiflora encontramos 27 morfoespécies de formigas, sendo as duas mais frequentes Camponotus crassus, e uma espécie do gênero Brachymyrmex, as mesmas que foram mais comumente encontradas presas aos abrigos das larvas mirmecófagas. Vimos que as larvas expõem uma substância líquida na abertura de seu abrigo, que comprovamos possuir composição química muito similar a do néctar extrafloral de Q. grandiflora, o que sugere que as larvas utilizam o néctar da própria planta para atrair suas presas. Na presença de larvas de Rhinoleucophenga, menos formigas visitam as plantas e também por menos tempo. Esse forrageamento diferenciado resultou em menor ataque de formigas a cupins vivos (herbívoros simulados). Além disso, na presença das larvas mirmecófagas houve maior abundância de herbívoros mastigadores e maior área foliar removida por herbívoros. Podemos afirmar que as larvas de Rhinoleucophenga sp. nov. utilizam o recurso da planta sem beneficiá-la. Além disso, as larvas do díptero também prejudicam a planta e suas formigas mutualísticas, uma vez que alimentando-se delas, aumentam a incidência de herbívoros e a herbivoria foliar na planta. Dessa forma, as larvas de Rhinoleucophenga sp. nov. estão agindo como exploradoras e do mutualismo formiga-Qualea grandiflora e predadoras de topo, causando efeito cascata nesse sistema / Abstract: Exploiters of mutualism - individuals that use resources/services offered by mutualists giving nothing in return - can cause serious damages to mutualists, especially when it involves the death of one of the partners. Plants bearing EFNs usually maintain mutualism with aggressive ants, which defend the plant against herbivores. In a cerrado area at Itirapina (SP), we found a new dipteran species of the genus Rhinoleucophenga (Drosophilidae) whose larvae construct sticky shelters on top of active EFNs of Q. grandiflora. Field observations revealed those ants and others insects that visit the EFNs can get trapped at the sticky larval shelters, and are consumed by the larvae. We hypothesized that Rhinoleucophenga larvae could be interfering with the ant-Qualea mutualism, and thus be acting as an exploiter of this interaction. Here, we investigate the natural history of Rhinoleucophenga larvae, mainly its behavior and association with ants and Qualea, and their possible effect on the ant-Qualea mutualism. Larvae of Rhinoleucophenga sp. nov. occur in 85% of the individuals of Qualea grandiflora inspected at Itirapina. Rhinoleucophenga larvae occur mostly during the rainy season, mainly at the apex and abaxial surface of the branches. We found 27 ant species visiting Qualea. The two most frequent visiting species, Brachymyrmex sp. 1 and Camponotus crassus, were most common insects trapped at larval shelters. Chemical analyses revealed that Rhinoleucophenga larvae use Qualea's extrafloral nectar to attract insect prey to their shelters. Qualea branches infested by ant-preying Rhinoleucophenga larvae had ant visitors for less time and in lower numbers than dipteran-free branches. This negative effect on ant foraging activity resulted in decreased levels of ant aggression to live termite-baits (i.e., simulated herbivores) on leaves of dipteran-infested compared to dipteran-free branches. Controlled field experiments demonstrated that branches hosting Rhinoleucophenga larvae had higher numbers of chewing herbivores and higher levels of foliar herbivory than dipteran-free branches. By using Qualea's EFNs as larval shelters and as attractants to ant prey, larvae of Rhinoleucophenga sp. nov. negatively affect both the plant and ant visitors, with cascading effects ultimately resulting in increased herbivore damage to leaves. Thus we can conclude that ant-eating Rhinoleucophenga larvae are acting as exploiters of the mutualism between ants and Q. grandiflora and also as top predator, causing cascade effect on this system / Mestrado / Ecologia / Mestra em Ecologia
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Assessment of Arbuscular Mycorrhizal Symbiosis on Invasion Success in <i>Brachypodium sylvaticum</i>Lee, Caitlin Elyse 21 November 2014 (has links)
The effects that mutualistic soil biota have on invasive species success is a growing topic of inquiry. Studies of the interactions between invasive plants and arbuscular mycorrhizal fungi (AMF) have shown changes in AMF community composition, reductions in AMF associations in invasive plants, and changes in native species fitness and competitive outcomes in invasive-shifted AMF communities. These findings support the degraded mutualist hypothesis, where invasive species alter the mutualist community composition, resulting in detrimental associations with the new mutualist community for native species. Here I present two studies that examine various aspects of the arbuscular mycorrhizal fungal (AMF) mutualism in the success of a newly invasive bunchgrass, Brachypodium sylvaticum. The first chapter is a field survey of AMF associations between a native bunchgrass, Elymus glaucus and B. sylvaticum in the invaded range. The second chapter presents a test of reduced mycorrhizal dependence between invasive and native-range populations of B. sylvaticum. For the field survey, AMF colonization and spore density of root and soil rhizosphere samples from B. sylvaticum and E. glaucus from the two regions of introduction of the B. sylvaticum invasion were measured. In this survey I found lower AMF colonization and spore density in B. sylvaticum compared to the native species in the invaded ranges. The reduction in AMF associations in B. sylvaticum was predicted to be due to the evolution of reduced mycorrhizal dependence in invasive populations compared to native populations of B. sylvaticum. I tested the prediction for reduced mycorrhizal dependence by measuring the fitness gains or losses with AMF inoculation compared to sterile conditions in both fertilized and unfertilized treatments for individuals of B. sylvaticum from each of the introduction sites in Oregon, USA and source populations from the native range in Europe. There were no differences in plant or AMF fitness between the invasive and native populations of B. sylvaticum. Under high nutrients the interaction between all B. sylvaticum plants and AMF was mutualistic. Under low nutrient treatments both B. sylvaticum and AMF had reduced fitness measures, suggesting a competitive interaction. Nutrient levels of inoculated unfertilized soils are similar to field conditions. It is likely that the reduction in AMF associations in B. sylvaticum observed in the field is due antagonistic interactions between AMF and B. sylvaticum.
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Alien ant invasion on Christmas Island, Indian Ocean : the role of ant-scale associations in the dynamics of supercolonies of the yellow crazy ant, Anoplolepis gracilipesAbbott, Kirsten L January 2004 (has links)
Abstract not available
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Identification and characterization of type III effector proteins in plant-associated bacteriaThomas, William J. 04 May 2012 (has links)
Symbioses between microbes and multicellular eukaryotes are found in all biomes, and encompass a spectrum of symbiotic lifestyles that includes parasitism and disease, commensalism, and mutually beneficial interdependent host-microbe relationships. Regardless of outcome, these symbiotic lifestyles are governed by a complex molecular "courtship" between microbe and potential host. This courtship is the primary determinant of the host range of a given microsymbiont. Host immunity poses a formidable barrier to the establishment of host-microbe relationships, and the majority of microbial suitors will be thwarted by it. Only by successfully "wooing" the host cell's immune defenses with the appropriate molecular signals can a microsymbiont successfully colonize its host.
A strategy common to microsymbionts across the spectrum of symbiotic lifestyles and host organisms is the delivery of microbial-encoded effector proteins into the cytoplasm of host cells to manipulate the host cell's molecular machinery for the purposes of subverting host immunity. Bacteria, in particular, have adapted a number of secretion systems for this purpose. The most well-characterized of these is the type III secretion system (T3SS), a molecular apparatus that specializes in injecting type III effector (T3Es) proteins directly into host cells. The work in this thesis focuses on T3Es of plant-associated bacteria, with particular emphasis on mutualistic bacteria. We present evidence that collections of T3Es from Sinorhizobium fredii and Bradyrhizobium japonicum are, in stark contrast to those of phytopathogenic bacteria, in a co-evolutionary equilibrium with their hosts. This equilibrium is characterized by highly conserved T3E collections consisting of many "core" T3Es with little variation in nucleotide sequence. The T3Es of Mesorhizobium loti MAFF303099 suggest a completely different picture of the evolution of T3Es. MAFF303099 recently acquired its T3SS locus, and the work in this thesis provides an evolutionary snapshot of a mutualist that is innovating a T3E collection primarily through horizontal gene transfer. Collectively, this work represents the first comprehensive catalog of T3Es of rhizobia and, in the case of Sinorhizobium and Bradyrhizobium, the first evidence of purifying selection for T3Es. / Graduation date: 2012
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Thousand Cankers Disease of Eastern Black Walnut: Ecological Interactions in the Holobiont of a Bark Beetle-Fungal DiseaseGeoffrey M Williams (11186766) 27 July 2021 (has links)
<p>Eastern black walnut (<i>Juglans
nigra</i> L.) ranks among the most highly valued timber species in the central
hardwood forest and across the world. This valuable tree fills a critical role
in native ecosystems as a mast bearing pioneer on mesic sites. Along with other
<i>Juglans</i> spp. (Juglandaceae), <i>J. nigra</i> is threatened by thousand
cankers disease (TCD), an insect-vectored disease first described in 2009. TCD
is caused by the bark beetle <i>Pityophthorus
juglandis</i> Blackman (Corthylini) and the phytopathogenic fungus <i>Geosmithia morbida</i> Kol. Free. Ut. &
Tiss. (Bionectriaceae). Together, the <i>P.
juglandis</i>-<i>G. morbida</i> complex has
expanded from its historical range in southwest North America throughout the
western United States (U.S.) and Europe. This range expansion has led to
widespread mortality among naïve hosts <i>J.
nigra</i> and <i>J. regia</i> planted
outside their native distributions.</p>
<p> The severity
of TCD was previously observed to be highest in urban and plantation
environments and outside of the host native range. Therefore, the objective of
this work was to provide information on biotic and abiotic environmental
factors that influence the severity and impact of TCD across the native and
non-native range of <i>J. nigra</i> and
across different climatic and management regimes. This knowledge would enable a
better assessment of the risk posed by TCD and a basis for developing
management activities that impart resilience to natural systems. Through a
series of greenhouse-, laboratory- and field-based experiments, environmental
factors that affect the pathogenicity and/or survival of <i>G. morbida</i> in <i>J. nigra</i>
were identified, with a focus on the microbiome, climate, and opportunistic
pathogens. A number of potentially important interactions among host, vector,
pathogen and the rest of the holobiont of TCD were characterized. The <i>holobiont</i> is defined as the whole
multitrophic community of organisms—including <i>J. nigra</i>, microinvertebrates, fungi and bacteria—that interact with
one another and with the host.</p>
<p>Our findings indicate that
interactions among host, vector, pathogen, secondary pathogens, novel microbial
communities, and novel abiotic environments modulate the severity of TCD in
native, non-native, and managed and unmanaged contexts. Prevailing climatic
conditions favor reproduction and spread of <i>G.
morbida</i> in the western United States due to the effect of wood moisture
content on fungal competition. The microbiome of soils, roots, and stems of
trees and seedlings grown outside the host native range harbor distinct,
lower-diversity communities of bacteria and fungi compared to the native range,
including different communities of beneficial or pathogenic functional groups
of fungi. The pathogen <i>G. morbida</i> was
also associated with a distinct community of microbes in stems compared to <i>G. morbida</i>-negative trees. The soil
microbiome from intensively-managed plantations facilitated positive feedback
between <i>G. morbida</i> and a
disease-promomting endophytic <i>Fusarium
solani</i> species complex sp. in roots of <i>J.
nigra</i> seedlings. Finally, the nematode species <i>Bursaphelenchus juglandis</i> associated with <i>P. juglandis</i> synergizes with <i>G.
morbida</i> to cause foliar symptoms in seedlings in a shadehouse; conversely,
experiments and observations indicated that the nematode species <i>Panagrolaimus</i> sp. and cf. <i>Ektaphelenchus</i> sp. could suppress WTB
populations and/or TCD outbreaks.</p>
<p>In conclusion, the composition,
function, and interactions within the <i>P.
juglandis</i> and <i>J. nigra</i> holobiont play
important roles in the TCD pathosystem. Managers and conservationists should be
aware that novel associations outside the host native range, or in monocultures,
intensive nursery production, and urban and low-humidity environments may favor
progression of the disease through the effects of associated phytobiomes,
nematodes, and climatic conditions on disease etiology. Trees in higher
diversity, less intensively managed growing environments within their native
range may be more resilient to disease. Moreover, expatriated, susceptible host
species (<i>i.e.</i>, <i>J. nigra</i>) growing in environments that are favorable to novel pests
or pest complexes (<i>i.e.</i>, the western
U.S.) may provide connectivity between emergent forest health threats (<i>i.e.</i>, TCD) and native host populations (<i>i.e.</i>, <i>J. nigra</i> in its native range).</p>
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