Your search keyword '"Saltonstall K"' showing total 34 results

1. A comparison of Phragmites australisin freshwater and brackish marsh environments in North America

Author

Meyerson, L.A., Saltonstall, K., Windham, L., Kiviat, E., and Findlay, S.

Published

2000

2. Mitochondrial DNA variability in Grauer's Gorillas of Kahuzi-Biega National Park

Author

Saltonstall, K., Amato, G., and Powell, J.

Subjects

Gorillas -- Physiological aspects, DNA -- Research, Mitochondrial DNA -- Research, Cytochrome oxidase -- Research, Animals -- Habitations, Biological sciences

Abstract

Eastern lowland gorillas (Gorilla gorilla graueri) are not well studied, particularly on a molecular level. The internal region of the mitochondrial DNA cytochrome oxidase subunit II (COII) areas and a hypervariable section of the mitochondrial DNA control region (D-loop) from wild lowland gorillas in montane and lowland habitats of Kahuzi-Biega National Park, were sequenced. The COII regions were found to be identical, suggesting previous diagnostic sites may be valid. There was low variability in the D-loop and haplotype frequencies were different in the two habits, indicating demographic distinctions.

Published

1998

3. A comparison of Phragmites australis in freshwater and brackish marsh environments in North America

Author

Meyerson, L. A., Saltonstall, K., Windham, L., Kiviat, E., and Findlay, S.

Published

2000

4. Peer Review #3 of "Livestock as a potential biological control agent for an invasive wetland plant (v0.1)"

Author

Saltonstall, K, additional

Published

2014

5. Confirmed field hybridization of native and introduced Phragmites australis (Poaceae) in North America

Author

Saltonstall, K., primary, Castillo, H. E., additional, and Blossey, B., additional

Published

2014

6. Microsatellite variation within and among North American lineages ofPhragmites australis

Author

Saltonstall, K., primary

Published

2003

7. Microsatellite variation within and among North American lineages of Phragmites australis.

Author

Saltonstall, K.

Subjects

*PHRAGMITES australis, *MICROSATELLITE repeats, *POPULATION genetics

Abstract

Abstract Over the past century, the spread of the common reed (Phragmites australis ) has had a dramatic impact on wetland communities across North America. Although native populations of Phragmites persist, introduced invasive populations have dominated many sites and it is not clear if the two types can interbreed. This study compares patterns of differentiation in 10 microsatellite loci among North American and European Phragmites individuals with results obtained from sequencing of noncoding chloroplast DNA. Three population lineages (native, introduced and Gulf Coast) were previously identified in North America from chloroplast DNA and similar structuring was found in the nuclear genome. Each lineage was distinguished by unique alleles and allele combinations and the introduced lineage was closely related to its hypothesized source population in Europe. Size homoplasy and diagnostic base substitutions distinguishing lineages were evident at several loci, further emphasizing that native, introduced and Gulf Coast North American Phragmites lineages are genetically distinct. Gene flow between lineages was low and invasive introduced populations do not represent a hybrid population type. [ABSTRACT FROM AUTHOR]

Published

2003

8. Expansion of Phragmites australis into tidal wetlands of North America

Author

Chambers, R.M., Meyerson, L.A., and Saltonstall, K.

Published

1999

9. Two draft genomes of fungal leaf endophytes from tropical gymnosperms.

Author

Villarreal Aguilar JC, Meléndez O, Bethancourt R, Bethancourt A, Rodríguez-Castro L, Mendieta J, Durant A, Vargas M, Sedio B, and Saltonstall K

Abstract

Two ascomycetes, Neofusicoccum sp. and Xylaria sp. , were isolated from healthy leaves of the tropical gymnosperms Zamia pseudoparasitica (Z2) and Zamia nana (Z50) from Panama. The two draft genomes possess a broad predicted repertoire of carbohydrate-degrading CAZymes, peptidases, and secondary metabolites, with more secondary metabolite clusters in the Xylaria isolate., Competing Interests: The authors declare no conflict of interest.

Published

2024

10. Leaf Endophytes Relationship with Host Metabolome Expression in Tropical Gymnosperms.

Author

Sierra AM, Meléndez O, Bethancourt R, Bethancourt A, Rodríguez-Castro L, López CA, Sedio BE, Saltonstall K, and Villarreal A JC

Subjects

Bacteria metabolism, Bacteria classification, Fungi metabolism, Metabolomics, Plant Leaves metabolism, Plant Leaves microbiology, Plant Leaves chemistry, Endophytes metabolism, Endophytes physiology, Metabolome, Cycadopsida metabolism, Cycadopsida microbiology

Abstract

Plant-microbe interactions play a pivotal role in shaping host fitness, especially concerning chemical defense mechanisms. In cycads, establishing direct correlations between specific endophytic microbes and the synthesis of highly toxic defensive phytochemicals has been challenging. Our research delves into the intricate relationship between plant-microbe associations and the variation of secondary metabolite production in two closely related Zamia species that grow in distinct habitats; terrestrial and epiphytic. Employing an integrated approach, we combined microbial metabarcoding, which characterize the leaf endophytic bacterial and fungal communities, with untargeted metabolomics to test if the relative abundances of specific microbial taxa in these two Zamia species were associated with different metabolome profiles. The two species studied shared approximately 90% of the metabolites spanning diverse biosynthetic pathways: alkaloids, amino acids, carbohydrates, fatty acids, polyketides, shikimates, phenylpropanoids, and terpenoids. Co-occurrence networks revealed positive associations among metabolites from different pathways, underscoring the complexity of their interactions. Our integrated analysis demonstrated to some degree that the intraspecific variation in metabolome profiles of the two host species was associated with the abundance of bacterial orders Acidobacteriales and Frankiales, as well as the fungal endophytes belonging to the orders Chaetothyriales, Glomerellales, Heliotiales, Hypocreales, and Sordariales. We further associate individual metabolic similarity with four specific fungal endophyte members of the core microbiota, but no specific bacterial taxa associations were identified. This study represents a pioneering investigation to characterize leaf endophytes and their association with metabolomes in tropical gymnosperms, laying the groundwork for deeper inquiries into this complex domain., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

11. Widespread occurrence of fecal indicator bacteria in oligotrophic tropical streams. Are common culture-based coliform tests appropriate?

Author

Chavarria K, Batista J, and Saltonstall K

Subjects

Escherichia coli isolation & purification, Tropical Climate, RNA, Ribosomal, 16S genetics, Water Quality, Feces microbiology, Rivers microbiology, Water Microbiology, Environmental Monitoring methods, Enterobacteriaceae isolation & purification, Enterobacteriaceae genetics

Abstract

Monitoring of stream water quality is a key element of water resource management worldwide, but methods that are commonly used in temperate habitats may not be appropriate in humid tropical systems. We assessed the influence of four land uses on microbial water quality in 21 streams in the Panama Canal Watershed over a one-year period, using a common culture-based fecal indicator test and 16S rDNA metabarcoding. Each stream was located within one of four land uses: mature forest, secondary forest, silvopasture, and traditional cattle pasture. Culturing detected total coliforms and Escherichia coli across all sites but found no significant differences in concentrations between land uses. However, 16S rDNA metabarcoding revealed variability in the abundance of coliforms across land uses and several genera that can cause false positives in culture-based tests. Our results indicate that culture-based fecal indicator bacteria tests targeting coliforms may be poor indicators of fecal contamination in Neotropical oligotrophic streams and suggest that tests targeting members of the Bacteroidales would provide a more reliable indication of fecal contamination., Competing Interests: Authors declare that they have no competing interests., (©2024 Chavarria et al.)

Published

2024

12. Trees adjust nutrient acquisition strategies across tropical forest secondary succession.

Author

Wong MY, Wurzburger N, Hall JS, Wright SJ, Tang W, Hedin LO, Saltonstall K, van Breugel M, and Batterman SA

Subjects

Plant Roots metabolism, Plant Roots microbiology, Phosphoric Monoester Hydrolases metabolism, Panama, Trees, Tropical Climate, Forests, Phosphorus metabolism, Nitrogen metabolism, Mycorrhizae physiology, Nutrients metabolism

Abstract

Nutrient limitation may constrain the ability of recovering and mature tropical forests to serve as a carbon sink. However, it is unclear to what extent trees can utilize nutrient acquisition strategies - especially root phosphatase enzymes and mycorrhizal symbioses - to overcome low nutrient availability across secondary succession. Using a large-scale, full factorial nitrogen and phosphorus fertilization experiment of 76 plots along a secondary successional gradient in lowland wet tropical forests of Panama, we tested the extent to which root phosphatase enzyme activity and mycorrhizal colonization are flexible, and if investment shifts over succession, reflective of changing nutrient limitation. We also conducted a meta-analysis to test how tropical trees adjust these strategies in response to nutrient additions and across succession. We find that tropical trees are dynamic, adjusting investment in strategies - particularly root phosphatase - in response to changing nutrient conditions through succession. These changes reflect a shift from strong nitrogen to weak phosphorus limitation over succession. Our meta-analysis findings were consistent with our field study; we found more predictable responses of root phosphatase than mycorrhizal colonization to nutrient availability. Our findings suggest that nutrient acquisition strategies respond to nutrient availability and demand in tropical forests, likely critical for alleviating nutrient limitation., (© 2024 The Authors. New Phytologist © 2024 New Phytologist Foundation.)

Published

2024

13. Comparative phylogeography reveals widespread cryptic diversity driven by ecology in Panamanian birds.

Author

McLaughlin JF, Aguilar C, Bernstein JM, Navia-Gine WG, Cueto-Aparicio LE, Alarcon AC, Alarcon BD, Collier R, Takyar A, Vong SJ, López-Chong OG, Driver R, Loaiza JR, De León LF, Saltonstall K, Lipshutz SE, Arcila D, Brock KM, and Miller MJ

Abstract

Widespread species often harbor unrecognized genetic diversity, and investigating the factors associated with such cryptic variation can help us better understand the forces driving diversification. Here, we identify potential cryptic species based on a comprehensive dataset of COI mitochondrial DNA barcodes from 2,333 individual Panamanian birds across 429 species, representing 391 (59%) of the 659 resident landbird species of the country, as well as opportunistically sampled waterbirds. We complement this dataset with additional publicly available mitochondrial loci, such as ND2 and cytochrome b, obtained from whole mitochondrial genomes from 20 taxa. Using barcode identification numbers (BINs), we find putative cryptic species in 19% of landbird species, highlighting hidden diversity in the relatively well-described avifauna of Panama. Whereas some of these mitochondrial divergence events corresponded with recognized geographic features that likely isolated populations, such as the Cordillera Central highlands, the majority (74%) of lowland splits were between eastern and western populations. The timing of these splits are not temporally coincident across taxa, suggesting that historical events, such as the formation of the Isthmus of Panama and Pleistocene climatic cycles, were not the primary drivers of cryptic diversification. Rather, we observed that forest species, understory species, insectivores, and strongly territorial species-all traits associated with lower dispersal ability-were all more likely to have multiple BINs in Panama, suggesting strong ecological associations with cryptic divergence. Additionally, hand-wing index, a proxy for dispersal capability, was significantly lower in species with multiple BINs, indicating that dispersal ability plays an important role in generating diversity in Neotropical birds. Together, these results underscore the need for evolutionary studies of tropical bird communities to consider ecological factors along with geographic explanations, and that even in areas with well-known avifauna, avian diversity may be substantially underestimated.

Published

2023

14. Environmental DNA (eDNA) reveals potential for interoceanic fish invasions across the Panama Canal.

Author

Schreiber L, Castellanos-Galindo GA, Robertson DR, Torchin M, Chavarria K, Laakmann S, and Saltonstall K

Abstract

Interoceanic canals can facilitate biological invasions as they connect the world's oceans and remove dispersal barriers between bioregions. As a consequence, multiple opportunities for biotic exchange arise and the resulting establishment of migrant species often causes adverse ecological and economic impacts. The Panama Canal is a key region for biotic exchange as it connects the Pacific and Atlantic Oceans in Central America. In this study, we used two complementary methods (environmental DNA (eDNA) metabarcoding and gillnetting) to survey fish communities in this unique waterway. Using COI (cytochrome oxidase subunit I) metabarcoding, we detected a total of 142 fish species, including evidence for the presence of sixteen Atlantic and eight Pacific marine fish in different freshwater sections of the Canal. Of these, nine are potentially new records. Molecular data did not capture all species caught with gillnets, but generally provided a more complete image of the known fish fauna as more small-bodied fish species were detected. Diversity indices based on eDNA surveys revealed significant differences across different sections of the Canal reflecting in part the prevailing environmental conditions. The observed increase in the presence of marine fish species in the Canal indicates a growing potential for interoceanic fish invasions. The potential ecological and evolutionary consequences of this increase in marine fishes are not only restricted to the fish fauna in the Canal as they could also impact adjacent ecosystems in the Pacific and Atlantic Oceans., Competing Interests: The authors declare that they have no conflicts of interest., (© 2023 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2023

15. Predicting invasion risk of grasses in novel environments requires improved genomic understanding of adaptive potential.

Author

Bellis ES, Lucardi RD, Saltonstall K, and Marsico TD

Subjects

Genomics, Poaceae genetics, Ecosystem

Published

2022

16. Microbial diversity declines in warmed tropical soil and respiration rise exceed predictions as communities adapt.

Author

Nottingham AT, Scott JJ, Saltonstall K, Broders K, Montero-Sanchez M, Püspök J, Bååth E, and Meir P

Subjects

Carbon, Carbon Dioxide metabolism, Respiration, Soil, Soil Microbiology

Abstract

Perturbation of soil microbial communities by rising temperatures could have important consequences for biodiversity and future climate, particularly in tropical forests where high biological diversity coincides with a vast store of soil carbon. We carried out a 2-year in situ soil warming experiment in a tropical forest in Panama and found large changes in the soil microbial community and its growth sensitivity, which did not fully explain observed large increases in CO 2 emission. Microbial diversity, especially of bacteria, declined markedly with 3 to 8 °C warming, demonstrating a breakdown in the positive temperature-diversity relationship observed elsewhere. The microbial community composition shifted with warming, with many taxa no longer detected and others enriched, including thermophilic taxa. This community shift resulted in community adaptation of growth to warmer temperatures, which we used to predict changes in soil CO 2 emissions. However, the in situ CO 2 emissions exceeded our model predictions threefold, potentially driven by abiotic acceleration of enzymatic activity. Our results suggest that warming of tropical forests will have rapid, detrimental consequences both for soil microbial biodiversity and future climate., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

17. Arboreal camera trapping sheds light on seed dispersal of the world's only epiphytic gymnosperm: Zamia pseudoparasitica .

Author

Monteza-Moreno CM, Rodriguez-Castro L, Castillo-Caballero PL, Toribio E, and Saltonstall K

Abstract

Epiphytic lifestyles have evolved independently in ecologically, morphologically, and taxonomically diverse plant species. Although this adaptation is widespread among angiosperms, it is only known to have arisen in a single gymnosperm species, Zamia pseudoparasitica (Cycadophyta). Zamia pseudoparasitica is endemic to the mountains of Western Panama, and little is known about the ecology of this unusual cycad. Here, we provide the first report of a potential seed disperser of Z . pseudoparasitica . Between late October 2019 and March 2020, we conducted arboreal camera trapping at three sites along the Talamanca Cordillera in Western Panama, yielding an accumulated survey effort of 271 camera days. Weekly direct observations were also performed using handheld binoculars at one site. Arboreal camera trapping revealed at least seven mammal species that visit this epiphytic cycad. At all three sites, the Northern olingo ( Bassaricyon gabbii ) was seen visiting individuals of Z . pseudoparasitica repeatedly, both while cones were closed and after they had opened. We estimated the time-varying intensity of the visits throughout our sampling and used mixed models to compare the length of visits when cones were closed versus when they were open. Both duration and time-varying intensity of visits increased after cones had opened and we documented Northern olingo removing and carrying away seeds. We also observed predation by the yellow-eared toucanet ( Selenidera spectabilis ) which picked and destroyed mature Z . pseudoparasitica seeds. These results suggest that the Northern olingo could be an important seed dispersal agent for this rare epiphytic gymnosperm., Competing Interests: The authors declare no conflict of interest., (© 2022 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2022

18. Land use influences stream bacterial communities in lowland tropical watersheds.

Author

Chavarria KA, Saltonstall K, Vinda J, Batista J, Lindmark M, Stallard RF, and Hall JS

Abstract

Land use is known to affect water quality yet the impact it has on aquatic microbial communities in tropical systems is poorly understood. We used 16S metabarcoding to assess the impact of land use on bacterial communities in the water column of four streams in central Panama. Each stream was influenced by a common Neotropical land use: mature forest, secondary forest, silvopasture and traditional cattle pasture. Bacterial community diversity and composition were significantly influenced by nearby land uses. Streams bordered by forests had higher phylogenetic diversity (Faith's PD) and similar community structure (based on weighted UniFrac distance), whereas the stream surrounded by traditional cattle pasture had lower diversity and unique bacterial communities. The silvopasture stream showed strong seasonal shifts, with communities similar to forested catchments during the wet seasons and cattle pasture during dry seasons. We demonstrate that natural forest regrowth and targeted management, such as maintaining and restoring riparian corridors, benefit stream-water microbiomes in tropical landscapes and can provide a rapid and efficient approach to balancing agricultural activities and water quality protection., (© 2021. The Author(s).)

Published

2021

19. Legume-microbiome interactions unlock mineral nutrients in regrowing tropical forests.

Author

Epihov DZ, Saltonstall K, Batterman SA, Hedin LO, Hall JS, van Breugel M, Leake JR, and Beerling DJ

Subjects

Acidobacteria classification, Acidobacteria genetics, Acidobacteria metabolism, Biomass, Carbon analysis, Fabaceae growth & development, Fabaceae metabolism, Ferric Compounds metabolism, Hydrogen-Ion Concentration, Microbiota genetics, Minerals analysis, Nitrogen analysis, Nitrogen metabolism, Nitrogen Fixation, Nutrients analysis, Panama, Phosphorus metabolism, Silicates analysis, Silicates metabolism, Soil chemistry, Soil Microbiology, Symbiosis, Trees growth & development, Trees metabolism, Trees microbiology, Fabaceae microbiology, Forests, Microbiota physiology, Minerals metabolism, Nutrients metabolism, Tropical Climate

Abstract

Legume trees form an abundant and functionally important component of tropical forests worldwide with N 2 -fixing symbioses linked to enhanced growth and recruitment in early secondary succession. However, it remains unclear how N 2 -fixers meet the high demands for inorganic nutrients imposed by rapid biomass accumulation on nutrient-poor tropical soils. Here, we show that N 2 -fixing trees in secondary Neotropical forests triggered twofold higher in situ weathering of fresh primary silicates compared to non-N 2 -fixing trees and induced locally enhanced nutrient cycling by the soil microbiome community. Shotgun metagenomic data from weathered minerals support the role of enhanced nitrogen and carbon cycling in increasing acidity and weathering. Metagenomic and marker gene analyses further revealed increased microbial potential beneath N 2 -fixers for anaerobic iron reduction, a process regulating the pool of phosphorus bound to iron-bearing soil minerals. We find that the Fe(III)-reducing gene pool in soil is dominated by acidophilic Acidobacteria, including a highly abundant genus of previously undescribed bacteria, Candidatus Acidoferrum , genus novus. The resulting dependence of the Fe-cycling gene pool to pH determines the high iron-reducing potential encoded in the metagenome of the more acidic soils of N 2 -fixers and their nonfixing neighbors. We infer that by promoting the activities of a specialized local microbiome through changes in soil pH and C:N ratios, N 2 -fixing trees can influence the wider biogeochemical functioning of tropical forest ecosystems in a manner that enhances their ability to assimilate and store atmospheric carbon., Competing Interests: The authors declare no competing interest., (Copyright © 2021 the Author(s). Published by PNAS.)

Published

2021

20. The Role of Phosphorus Limitation in Shaping Soil Bacterial Communities and Their Metabolic Capabilities.

Author

Oliverio AM, Bissett A, McGuire K, Saltonstall K, Turner BL, and Fierer N

Subjects

Bacteria classification, Ecosystem, Forests, Metagenome, Metagenomics, Microbial Consortia, Nitrogen metabolism, Bacteria metabolism, Phosphorus metabolism, Soil Microbiology

Abstract

Phosphorus (P) is an essential nutrient that is often in limited supply, with P availability constraining biomass production in many terrestrial ecosystems. Despite decades of work on plant responses to P deficiency and the importance of soil microbes to terrestrial ecosystem processes, how soil microbes respond to, and cope with, P deficiencies remains poorly understood. We studied 583 soils from two independent sample sets that each span broad natural gradients in extractable soil P and collectively represent diverse biomes, including tropical forests, temperate grasslands, and arid shrublands. We paired marker gene and shotgun metagenomic analyses to determine how soil bacterial and archaeal communities respond to differences in soil P availability and to detect corresponding shifts in functional attributes. We identified microbial taxa that are consistently responsive to extractable soil P, with those taxa found in low P soils being more likely to have traits typical of oligotrophic life history strategies. Using environmental niche modeling of genes and gene pathways, we found an enriched abundance of key genes in low P soils linked to the carbon-phosphorus (C-P) lyase and phosphonotase degradation pathways, along with key components of the high-affinity phosphate-specific transporter (Pst) and phosphate regulon (Pho) systems. Taken together, these analyses suggest that catabolism of phosphonates is an important strategy used by bacteria to scavenge phosphate in P-limited soils. Surprisingly, these same pathways are important for bacterial growth in P-limited marine waters, highlighting the shared metabolic strategies used by both terrestrial and marine microbes to cope with P limitation., (Copyright © 2020 Oliverio et al.)

Published

2020

21. The Microbiome of Neotropical Water Striders and Its Potential Role in Codiversification.

Author

Castillo AM, Saltonstall K, Arias CF, Chavarria KA, Ramírez-Camejo LA, Mejía LC, and De León LF

Abstract

Insects host a highly diverse microbiome, which plays a crucial role in insect life. However, the composition and diversity of microbiomes associated with Neotropical freshwater insects is virtually unknown. In addition, the extent to which diversification of this microbiome is associated with host phylogenetic divergence remains to be determined. Here, we present the first comprehensive analysis of bacterial communities associated with six closely related species of Neotropical water striders in Panama. We used comparative phylogenetic analyses to assess associations between dominant bacterial linages and phylogenetic divergence among species of water striders. We found a total of 806 16S rRNA amplicon sequence variants (ASVs), with dominant bacterial taxa belonging to the phyla Proteobacteria (76.87%) and Tenericutes (19.51%). Members of the α- (e.g., Wolbachia ) and γ- (e.g., Acinetobacter , Serratia ) Proteobacteria, and Mollicutes (e.g., Spiroplasma ) were predominantly shared across species, suggesting the presence of a core microbiome in water striders. However, some bacterial lineages (e.g., Fructobacillus , Fluviicola and Chryseobacterium ) were uniquely associated with different water strider species, likely representing a distinctive feature of each species' microbiome. These findings indicate that both host identity and environmental context are important drivers of microbiome diversity in water striders. In addition, they suggest that diversification of the microbiome is associated with diversification in water striders. Although more research is needed to establish the evolutionary consequences of host-microbiome interaction in water striders, our findings support recent work highlighting the role of bacterial community host-microbiome codiversification.

Published

2020

22. Correction: Habitat disturbance and the organization of bacterial communities in Neotropical hematophagous arthropods.

Author

Bennett KL, Almanza A, McMillan WO, Saltonstall K, Vdovenko EL, Vinda JS, Mejia L, Driesse K, De León LF, and Loaiza JR

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0222145.].

Published

2019

23. Garden microbiomes of Apterostigma dentigerum and Apterostigma pilosum fungus-growing ants (Hymenoptera: Formicidae).

Author

González CT, Saltonstall K, and Fernández-Marín H

Subjects

Animals, Ants classification, Ants physiology, Fungi classification, Fungi genetics, Fungi physiology, Gardens, Phylogeny, Symbiosis, Ants microbiology, Fungi isolation & purification, Microbiota

Abstract

Fungus-growing ants share a complex symbiosis with microbes, including fungal mutualists, antibiotic-producing bacteria, and fungal pathogens. The bacterial communities associated with this symbiosis are poorly understood but likely play important roles in maintaining the health and function of fungal gardens. We studied bacterial communities in gardens of two Apterostigma species, A. dentigerum, and A. pilosum, using next-generation sequencing to evaluate differences between the two ant species, their veiled and no-veiled fungal garden types, and across three collection locations. We also compared different parts of nests to test for homogeneity within nests. Enterobacteriaceae dominated gardens of both species and common OTUs were shared across both species and nest types. However, differences in community diversity were detected between ant species, and in the communities of A. dentigerum veiled and no-veiled nests within sites. Apterostigma pilosum had a higher proportion of Phyllobacteriaceae and differed from A. dentigerum in the proportions of members of the order Clostridiales. Within A. dentigerum, nests with veiled and no-veiled fungus gardens had similar taxonomic profiles but differed in the relative abundance of some groups, with veiled gardens having more Rhodospirillaceae and Hyphomicrobiaceae, and no-veiled having more Xanthomonadaceae and certain genera in the Enterobacteriaceae C. However, bacterial communities in Apterostigma fungal gardens are highly conserved and resemble those of the nests of other attine ants with dominant taxa likely playing a role in biomass degradation and defense. Further work is required to understand and explain how bacterial community composition of fungus-growing nests is maintained.

Published

2019

24. Habitat disturbance and the organization of bacterial communities in Neotropical hematophagous arthropods.

Author

Bennett KL, Almanza A, McMillan WO, Saltonstall K, Vdovenko EL, Vinda JS, Mejia L, Driesse K, De León LF, and Loaiza JR

Subjects

Animals, Bacteria genetics, Biodiversity, Disease Vectors, Microbiota, RNA, Ribosomal, 16S genetics, Species Specificity, Arthropods microbiology, Bacteria isolation & purification, Ecosystem, Tropical Climate

Abstract

The microbiome plays a key role in the biology, ecology and evolution of arthropod vectors of human pathogens. Vector-bacterial interactions could alter disease transmission dynamics through modulating pathogen replication and/or vector fitness. Nonetheless, our understanding of the factors shaping the bacterial community in arthropod vectors is incomplete. Using large-scale 16S amplicon sequencing, we examine how habitat disturbance structures the bacterial assemblages of field-collected whole-body hematophagous arthropods that vector human pathogens including mosquitoes (Culicidae), sand flies (Psychodidae), biting midges (Ceratopogonidae) and hard ticks (Ixodidae). We found that all comparisons of the bacterial community among species yielded statistically significant differences, but a difference was not observed between adults and nymphs of the hard tick, Haemaphysalis juxtakochi. While Culicoides species had the most distinct bacterial community among dipterans, tick species were composed of entirely different bacterial OTU's. We observed differences in the proportions of some bacterial types between pristine and disturbed habitats for Coquillettidia mosquitoes, Culex mosquitoes, and Lutzomyia sand flies, but their associations differed within and among arthropod assemblages. In contrast, habitat quality was a poor predictor of differences in bacterial classes for Culicoides biting midges and hard tick species. In general, similarities in the bacterial communities among hematophagous arthropods could be explained by their phylogenetic relatedness, although intraspecific variation seems influenced by habitat disturbance., Competing Interests: The authors received funding from The Edward M. and Jeanne C. Kashian Family Foundation Inc., and Nicholas Logothetis of Chartwell Consulting. There are no patents, products in development or marketed products associated with this research to declare. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2019

25. Dynamics and diversity of bacteria associated with the disease vectors Aedes aegypti and Aedes albopictus.

Author

Bennett KL, Gómez-Martínez C, Chin Y, Saltonstall K, McMillan WO, Rovira JR, and Loaiza JR

Subjects

Aedes growth & development, Animals, Bacteria genetics, Disease Vectors, Ecosystem, Hydrogen-Ion Concentration, Larva microbiology, Panama, Principal Component Analysis, RNA, Ribosomal, 16S chemistry, RNA, Ribosomal, 16S genetics, RNA, Ribosomal, 16S metabolism, Sequence Analysis, DNA, Temperature, Water chemistry, Wolbachia genetics, Wolbachia growth & development, Aedes microbiology, Bacteria growth & development, Microbiota

Abstract

Aedes aegypti and Aedes albopictus develop in the same aquatic sites where they encounter microorganisms that influence their life history and capacity to transmit human arboviruses. Some bacteria such as Wolbachia are currently being considered for the control of Dengue, Chikungunya and Zika. Yet little is known about the dynamics and diversity of Aedes-associated bacteria, including larval habitat features that shape their tempo-spatial distribution. We applied large-scale 16S rRNA amplicon sequencing to 960 adults and larvae of both Ae. aegypti and Ae. albopictus mosquitoes from 59 sampling sites widely distributed across nine provinces of Panama. We find both species share a limited, yet highly variable core microbiota, reflecting high stochasticity within their oviposition habitats. Despite sharing a large proportion of microbiota, Ae. aegypti harbours higher bacterial diversity than Ae. albopictus, primarily due to rarer bacterial groups at the larval stage. We find significant differences between the bacterial communities of larvae and adult mosquitoes, and among samples from metal and ceramic containers. However, we find little support for geography, water temperature and pH as predictors of bacterial associates. We report a low incidence of natural Wolbachia infection for both Aedes and its geographical distribution. This baseline information provides a foundation for studies on the functions and interactions of Aedes-associated bacteria with consequences for bio-control within Panama.

Published

2019

26. Negative effects of parasitic lung nematodes on the fitness of a Neotropical toad (Rhinella horribilis).

Author

Kelehear C, Saltonstall K, and Torchin ME

Subjects

Animals, Bufo bufo growth & development, Female, Genetic Variation, Locomotion, Lung pathology, Male, Panama, Parasite Egg Count, Prevalence, Rhabdiasoidea pathogenicity, Bufo bufo parasitology, Lung parasitology, Rhabdiasoidea genetics

Abstract

Pathogens are increasingly implicated in amphibian declines but less is known about parasites and the role they play. We focused on a genus of nematodes (Rhabdias) that is widespread in amphibians and examined their genetic diversity, abundance (prevalence and intensity), and impact in a common toad (Rhinella horribilis) in Panama. Our molecular data show that toads were infected by at least four lineages of Rhabdias, most likely Rhabdias pseudosphaerocephala, and multiple lineages were present in the same geographic locality, the same host and even the same lung. Mean prevalence of infection per site was 63% and mean intensity of infection was 31 worms. There was a significant effect of host size on infection status in the wild: larger toads were more likely to be infected than were smaller conspecifics. Our experimental infections showed that toadlets that were penetrated by many infective Rhabdias larvae grew less than those who were penetrated by few larvae. Exposure to Rhabdias reduced toadlet locomotor performance (both sustained speed and endurance) but did not influence toadlet survival. The effects of Rhabdias infection on their host appear to be primarily sublethal, however, dose-dependent reduction in growth and an overall impaired locomotor performance still represents a significant reduction in host fitness.

Published

2019

27. Does hybrid Phragmites australis differ from native and introduced lineages in reproductive, genetic, and morphological traits?

Author

Williams J, Lambert AM, Long R, and Saltonstall K

Subjects

Biomass, Germination, Plant Dormancy, Poaceae anatomy & histology, Reproduction, Rhizome physiology, Seeds growth & development, Hybridization, Genetic, Poaceae physiology

Abstract

Premise of the Study: Hybridization between previously isolated species or lineages can stimulate invasiveness because of increased genetic diversity and inherited traits facilitating competitive and reproductive potential. We evaluated differences in stand characteristics and sexual and vegetative reproduction among native, introduced, and hybrid Phragmites australis lineages in the southwestern United States. We also assessed the degree of hybridization among lineages and backcrossing of hybrids with parental lineages., Methods: Growth and morphological characteristics were measured in native, introduced, and hybrid Phragmites stands to evaluate relative cover and dominance in associated plant communities. Panicles were collected from stands to evaluate germination, dormancy, and differences in seed traits. Seedlings from germination trials were genotyped to determine frequency of crossing and backcrossing among lineages., Key Results: Introduced and hybrid Phragmites stands had significantly greater stem and panicle densities than native stands and were more likely to be dominant members of their respective plant communities. Hybrid seed outputs were significantly greater, but hybrid seeds had lower germination rates than those from native and introduced lineages. We detected a novel hybridization event between native and introduced lineages, but found no strong evidence of hybrids backcrossing with parental lineages., Conclusions: Hybrid Phragmites in the Southwest exhibits reproductive, genetic, and morphological characteristics from both parental lineages that facilitate dispersal, establishment, and aggressive growth, including high reproductive output, rhizome viability, and aboveground biomass, with smaller seeds and greater genetic diversity than its progenitors. Our results show hybrids can inherit traits that confer invasiveness and provide insight for managing this species complex and other cryptic species with native and introduced variants with potential for intraspecific hybridization., (© 2019 Botanical Society of America.)

Published

2019

28. Carrion fly-derived DNA metabarcoding is an effective tool for mammal surveys: Evidence from a known tropical mammal community.

Author

Rodgers TW, Xu CCY, Giacalone J, Kapheim KM, Saltonstall K, Vargas M, Yu DW, Somervuo P, McMillan WO, and Jansen PA

Subjects

Animals, Biodiversity, DNA isolation & purification, Mammals genetics, Panama, Animal Feed analysis, DNA genetics, DNA Barcoding, Taxonomic methods, Diptera physiology, Feeding Behavior, Mammals classification, Metagenomics methods

Abstract

Metabarcoding of vertebrate DNA derived from carrion flies has been proposed as a promising tool for biodiversity monitoring. To evaluate its efficacy, we conducted metabarcoding surveys of carrion flies on Barro Colorado Island (BCI), Panama, which has a well-known mammal community, and compared our results against diurnal transect counts and camera trapping. We collected 1,084 flies in 29 sampling days, conducted metabarcoding with mammal-specific (16S) and vertebrate-specific (12S) primers, and sequenced amplicons on Illumina MiSeq. For taxonomic assignment, we compared blast with the new program protax, and we found that protax improved species identifications. We detected 20 mammal, four bird, and one lizard species from carrion fly metabarcoding, all but one of which are known from BCI. Fly metabarcoding detected more mammal species than concurrent transect counts (29 sampling days, 13 species) and concurrent camera trapping (84 sampling days, 17 species), and detected 67% of the number of mammal species documented by 8 years of transect counts and camera trapping combined, although fly metabarcoding missed several abundant species. This study demonstrates that carrion fly metabarcoding is a powerful tool for mammal biodiversity surveys and has the potential to detect a broader range of species than more commonly used methods., (© 2017 John Wiley & Sons Ltd.)

Published

2017

29. Potential arms race in the coevolution of primates and angiosperms: brazzein sweet proteins and gorilla taste receptors.

Author

Guevara EE, Veilleux CC, Saltonstall K, Caccone A, Mundy NI, and Bradley BJ

Subjects

Animals, Anthropology, Physical, Humans, Primates genetics, Primates physiology, Seed Dispersal, Biological Evolution, Gorilla gorilla genetics, Gorilla gorilla physiology, Magnoliopsida physiology, Plant Proteins physiology, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled physiology, Taste genetics, Taste physiology

Abstract

Objectives: We explored whether variation in the sweet taste receptor protein T1R3 in primates could contribute to differences in sweet taste repertoire among species, potentially reflecting coevolution with local plants. Specifically, we examined which primates are likely to be sweet "tasters" of brazzein, a protein found in the fruit of the African plant Pentadiplandra brazzeana that tastes intensely sweet to humans, but provides little energy. Sweet proteins like brazzein are thought to mimic the taste of sugars to entice seed dispersers. We examined the evolution of T1R3 and assessed whether primates are likely "deceived" by such biochemical mimicry., Methods: Using published and new sequence data for TAS1R3, we characterized 57 primates and other mammals at the two amino acid sites necessary to taste brazzein to determine which species are tasters. We further used dN/dS-based methods to look for statistical evidence of accelerated evolution in this protein across primate lineages., Results: The taster genotype is shared across most catarrhines, suggesting that most African primates can be "tricked" into eating and dispersing P. brazzeana's seeds for little caloric gain. Western gorillas (Gorilla gorilla), however, exhibit derived mutations at the two brazzein-critical positions, and although fruit is a substantial portion of the western gorilla diet, they have not been observed to eat P. brazzeana. Our analyses of protein evolution found no signature of positive selection on TAS1R3 along the gorilla lineage., Discussion: We propose that the gorilla-specific mutations at the TAS1R3 locus encoding T1R3 could be a counter-adaptation to the false sweet signal of brazzein., (© 2016 Wiley Periodicals, Inc.)

Published

2016

30. An introduced pentastomid parasite (Raillietiella frenata) infects native cane toads (Rhinella marina) in Panama.

Author

Kelehear C, Saltonstall K, and Torchin ME

Subjects

Animals, Female, Lung Diseases, Parasitic epidemiology, Lung Diseases, Parasitic parasitology, Male, Panama epidemiology, Parasitic Diseases, Animal epidemiology, Pentastomida anatomy & histology, Pentastomida genetics, Prevalence, Urban Renewal, Bufo marinus parasitology, Introduced Species, Lung Diseases, Parasitic veterinary, Parasitic Diseases, Animal parasitology, Pentastomida classification

Abstract

The pentastomid parasite, Raillietiella frenata, is native to Asia where it infects the Asian House gecko, Hemidactylus frenatus. This gecko has been widely introduced and recently R. frenata was found in introduced populations of cane toads (Rhinella marina) in Australia, indicating a host-switch from introduced geckos to toads. Here we report non-native adult R. frenata infecting the lungs of native cane toads in Panama. Eight of 64 toads were infected (median = 2.5, range = 1-80 pentastomids/toad) and pentastomid prevalence was positively associated with the number of buildings at a site, though further sampling is needed to confirm this pattern. We postulate that this pattern is likely due to a host shift of this parasite from an urban-associated introduced gecko. This is the first record of this parasite infecting cane toads in their native range, and the first instance of this parasite occurring in Central America.

Published

2015

31. Origin of the invasive Arundo donax (Poaceae): a trans-Asian expedition in herbaria.

Author

Hardion L, Verlaque R, Saltonstall K, Leriche A, and Vila B

Subjects

Asia, Biological Evolution, Ecosystem, Genetic Markers, Mediterranean Region, Molecular Sequence Data, Phylogeny, Poaceae anatomy & histology, Poaceae genetics, Polymorphism, Genetic, Reproduction, Sequence Analysis, DNA, DNA, Plant genetics, Founder Effect, Haplotypes, Introduced Species, Plant Dispersal, Poaceae physiology

Abstract

Background and Aims: The hypothesis of an ancient introduction, i.e. archaeophyte origin, is one of the most challenging questions in phylogeography. Arundo donax (Poaceae) is currently considered to be one of the worst invasive species globally, but it has also been widely utilzed by man across Eurasia for millennia. Despite a lack of phylogenetic data, recent literature has often speculated on its introduction to the Mediterranean region., Methods: This study tests the hypothesis of its ancient introduction from Asia to the Mediterranean by using plastid DNA sequencing and morphometric analysis on 127 herbarium specimens collected across sub-tropical Eurasia. In addition, a bioclimatic species distribution model calibrated on 1221 Mediterranean localities was used to identify similar ecological niches in Asia., Key Results: Despite analysis of several plastid DNA hypervariable sites and the identification of 13 haplotypes, A. donax was represented by a single haplotype from the Mediterranean to the Middle East. This haplotype is shared with invasive samples worldwide, and its nearest phylogenetic relatives are located in the Middle East. Morphometric data characterized this invasive clone by a robust morphotype distinguishable from all other Asian samples. The ecological niche modelling designated the southern Caspian Sea, southern Iran and the Indus Valley as the most suitable regions of origin in Asia for the invasive clone of A. donax., Conclusions: Using an integrative approach, an ancient dispersion of this robust, polyploid and non-fruiting clone is hypothesized from the Middle East to the west, leading to its invasion throughout the Mediterranean Basin., (© The Author 2014. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2014

32. The value of repetitive sequences in chloroplast DNA for phylogeographic inference: a comment on Vachon & Freeland 2011.

Author

Saltonstall K and Lambertini C

Subjects

DNA, Chloroplast genetics, Mutation, Phylogeny, Poaceae classification, Poaceae genetics, Repetitive Sequences, Nucleic Acid

Abstract

In a recent Technical Advance article, Vachon and Freeland (2011, Molecular Ecology Resources, 11, 279-285.) evaluate the utility of repetitive and non-repetitive variation in the chloroplast genome for phylogeographic inference, using variation in Phragmites australis as an example. While we agree that repetitive and nonrepetitive regions evolve at different rates and homoplasy can impact results, we disagree with the conclusion that repetitive regions are inappropriate for large-scale phylogeographic studies. Here we describe limitations to the study dataset and analysis, and provide an alternative viewpoint on the utility of repetitive regions for phylogeographic studies., (© 2012 Blackwell Publishing Ltd.)

Published

2012

33. Extreme difference in rate of mitochondrial and nuclear DNA evolution in a large ectotherm, Galápagos tortoises.

Author

Caccone A, Gentile G, Burns CE, Sezzi E, Bergman W, Ruelle M, Saltonstall K, and Powell JR

Subjects

Animals, Ecuador, Sequence Alignment, Sequence Analysis, DNA, Cell Nucleus genetics, DNA genetics, DNA, Mitochondrial genetics, Evolution, Molecular, Turtles genetics

Abstract

We sequenced approximately 4.5 kb of mtDNA from 161 individuals representing 11 named taxa of giant Galápagos tortoises (Geochelone nigra) and about 4 kb of non-coding nuclear DNA from fewer individuals of these same 11 taxa. In comparing mtDNA and nucDNA divergences, only silent substitutions (introns, ITS, mtDNA control region, and synonymous substitutions in coding sequences) were considered. mtDNA divergence was about 30 times greater than that for nucDNA. This rate discrepancy for mtDNA and nucDNA is the greatest yet documented and is particularly surprising for large ectothermic animals that are thought to have relatively low rates of mtDNA evolution. This observation may be due to the somewhat unusual reproductive biology and biogeographic history of these organisms. The implication is that the ratio of effective population size of nucDNA/mtDNA is much greater than the usually assumed four. The nearly neutral theory of molecular evolution predicts this would lead to a greater difference between rates of evolution.

Published

2004

34. Cryptic invasion by a non-native genotype of the common reed, Phragmites australis, into North America.

Author

Saltonstall K

Subjects

Australia, Ecology, Haplotypes, Molecular Sequence Data, North America, Genes, Plant, Genotype, Plant Physiological Phenomena

Abstract

Cryptic invasions are a largely unrecognized type of biological invasion that lead to underestimation of the total numbers and impacts of invaders because of the difficulty in detecting them. The distribution and abundance of Phragmites australis in North America has increased dramatically over the past 150 years. This research tests the hypothesis that a non-native strain of Phragmites is responsible for the observed spread. Two noncoding chloroplast DNA regions were sequenced for samples collected worldwide, throughout the range of Phragmites. Modern North American populations were compared with historical ones from herbarium collections. Results indicate that an introduction has occurred, and the introduced type has displaced native types as well as expanded to regions previously not known to have Phragmites. Native types apparently have disappeared from New England and, while still present, may be threatened in other parts of North America.

Published

2002