Your search keyword '"Geoffrey Zahn"' showing total 7 results

1. Foliar microbiome transplants confer disease resistance in a critically-endangered plant

Author

Geoffrey Zahn and Anthony S. Amend

Subjects

Endangered plants, Microbiomes, Conservation methods, Fungal endophytes, Tropical biology, Plant pathogens, Medicine, Biology (General), QH301-705.5

Abstract

There has been very little effort to incorporate foliar microbiomes into plant conservation efforts even though foliar endophytes are critically important to the fitness and function of hosts. Many critically endangered plants that have been extirpated from the wild are dependent on regular fungicidal applications in greenhouses that cannot be maintained for remote out-planted populations, which quickly perish. These fungicides negatively impact potentially beneficial fungal symbionts, which may reduce plant defenses to pathogens once fungicide treatments are stopped. Using the host/parasite system of Phyllostegia kaalaensis and Neoerysiphe galeopsidis, we conducted experiments to test total foliar microbiome transplants from healthy wild relatives onto fungicide-dependent endangered plants in an attempt to mitigate disease and reduce dependency on fungicides. Plants were treated with total microbiome transplants or cultured subsets of this community and monitored for disease severity. High-throughput DNA screening of fungal ITS1 rDNA was used to track the leaf-associated fungal communities and evaluate the effectiveness of transplantation methods. Individuals receiving traditionally isolated fungal treatments showed no improvement, but those receiving applications of a simple leaf slurry containing an uncultured fungal community showed significant disease reduction, to which we partially attribute an increase in the mycoparasitic Pseudozyma aphidis. These results were replicated in two independent experimental rounds. Treated plants have since been moved to a native habitat and, as of this writing, remain disease-free. Our results demonstrate the effectiveness of a simple low-tech method for transferring beneficial microbes from healthy wild plants to greenhouse-raised plants with reduced symbiotic microbiota. This technique was effective at reducing disease, and in conferring increased survival to an out-planted population of critically endangered plants. It was not effective in a closely related plant. Plant conservation efforts should strive to include foliar microbes as part of comprehensive management plans.

Published

2017

2. Uncovering unseen fungal diversity from plant DNA banks

Author

Erin M. Datlof, Anthony S. Amend, Kamala Earl, Jeremy Hayward, Clifford W. Morden, Rachael Wade, Geoffrey Zahn, and Nicole A. Hynson

Subjects

Microbial diversity, DNA banks, Fungi, Biodiversity, Biobanks, Medicine, Biology (General), QH301-705.5

Abstract

Throughout the world DNA banks are used as storage repositories for genetic diversity of organisms ranging from plants to insects to mammals. Designed to preserve the genetic information for organisms of interest, these banks also indirectly preserve organisms’ associated microbiomes, including fungi associated with plant tissues. Studies of fungal biodiversity lag far behind those of macroorganisms, such as plants, and estimates of global fungal richness are still widely debated. Utilizing previously collected specimens to study patterns of fungal diversity could significantly increase our understanding of overall patterns of biodiversity from snapshots in time. Here, we investigated the fungi inhabiting the phylloplane among species of the endemic Hawaiian plant genus, Clermontia (Campanulaceae). Utilizing next generation DNA amplicon sequencing, we uncovered approximately 1,780 fungal operational taxonomic units from just 20 DNA bank samples collected throughout the main Hawaiian Islands. Using these historical samples, we tested the macroecological pattern of decreasing community similarity with decreasing geographic proximity. We found a significant distance decay pattern among Clermontia associated fungal communities. This study provides the first insights into elucidating patterns of microbial diversity through the use of DNA bank repository samples.

Published

2017

3. Ecological distribution of protosteloid amoebae in New Zealand

Author

Geoffrey Zahn, Steven L. Stephenson, and Frederick W. Spiegel

Subjects

Amoebae, Protostelid, New Zealand, Biogeography, Medicine, Biology (General), QH301-705.5

Abstract

During the period of March 2004 to December 2007, samples of aerial litter (dead but still attached plant parts) and ground litter (dead plant material on the ground) were collected from 81 study sites representing a wide range of latitudes (34°S to 50°S) and a variety of different types of habitats throughout New Zealand (including Stewart Island and the Auckland Islands). The objective was to survey the assemblages of protosteloid amoebae present in this region of the world. Twenty-nine described species of protosteloid amoebae were recorded by making morphological identifications of protosteloid amoebae fruiting bodies on cultured substrates. Of the species observed, Protostelium mycophaga was by far the most abundant and was found in more than half of all samples. Most species were found in fewer than 10% of the samples collected. Seven abundant or common species were found to display significantly increased likelihood for detection in aerial litter or ground litter microhabitats. There was some evidence of a general correlation between environmental factors - annual precipitation, elevation, and distance from the equator (latitude) - and the abundance and richness of protosteloid amoebae. An increase in each of these three factors correlated with a decrease in both abundance and richness. This study provides a thorough survey of the protosteloid amoebae present in New Zealand and adds to a growing body of evidence which suggests several correlations between their broad distributional patterns and environmental factors.

Published

2014

4. Uncovering unseen fungal diversity from plant DNA banks

Author

Geoffrey Zahn, Anthony S. Amend, Erin M. Datlof, Clifford W. Morden, Kamala Earl, Rachael M. Wade, Nicole A. Hynson, and Jeremy Hayward

Subjects

0301 basic medicine, Microbial diversity, DNA bank, Biodiversity, lcsh:Medicine, Mycology, Microbiology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Genus, Microbiome, Genetic diversity, Campanulaceae, biology, Ecology, General Neuroscience, lcsh:R, Fungi, General Medicine, biology.organism_classification, Biobanks, 030104 developmental biology, Biogeography, DNA banks, Species richness, General Agricultural and Biological Sciences, Phyllosphere

Abstract

Throughout the world DNA banks are used as storage repositories for genetic diversity of organisms ranging from plants to insects to mammals. Designed to preserve the genetic information for organisms of interest, these banks also indirectly preserve organisms’ associated microbiomes, including fungi associated with plant tissues. Studies of fungal biodiversity lag far behind those of macroorganisms, such as plants, and estimates of global fungal richness are still widely debated. Utilizing previously collected specimens to study patterns of fungal diversity could significantly increase our understanding of overall patterns of biodiversity from snapshots in time. Here, we investigated the fungi inhabiting the phylloplane among species of the endemic Hawaiian plant genus, Clermontia (Campanulaceae). Utilizing next generation DNA amplicon sequencing, we uncovered approximately 1,780 fungal operational taxonomic units from just 20 DNA bank samples collected throughout the main Hawaiian Islands. Using these historical samples, we tested the macroecological pattern of decreasing community similarity with decreasing geographic proximity. We found a significant distance decay pattern among Clermontia associated fungal communities. This study provides the first insights into elucidating patterns of microbial diversity through the use of DNA bank repository samples.

Published

2017

5. Fungi associated with mesophotic macroalgae from the ‘Au‘au Channel, west Maui are differentiated by host and overlap terrestrial communities

Author

Geoffrey Zahn, Alison R. Sherwood, Celia M. Smith, Benjamin J Wainwright, Heather L. Spalding, and Anthony S. Amend

Subjects

0106 biological sciences, 0301 basic medicine, Coral, Biodiversity, lcsh:Medicine, Marine Biology, Mycology, 010603 evolutionary biology, 01 natural sciences, Hawaii, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Algae, Mesophotic coral ecosytems, Ecosystem, 14. Life underwater, Reef, Connectivity, geography, geography.geographical_feature_category, Marine, biology, Host (biology), Ecology, General Neuroscience, lcsh:R, fungi, Fungi, technology, industry, and agriculture, General Medicine, 15. Life on land, biology.organism_classification, 030104 developmental biology, Habitat, Terrestrial ecosystem, ITS, General Agricultural and Biological Sciences, geographic locations

Abstract

Mesophotic coral ecosystems are an almost entirely unexplored and undocumented environment that likely contains vast reservoirs of undescribed biodiversity. Twenty-four macroalgae samples, representing four genera, were collected from a Hawaiian mesophotic reef at water depths between 65 and 86 m in the ‘Au‘au Channel, Maui, Hawai‘i. Algal tissues were surveyed for the presence and diversity of fungi by sequencing the ITS1 gene using Illumina technology. Fungi from these algae were then compared to previous fungal surveys conducted in Hawaiian terrestrial ecosystems. Twenty-seven percent of the OTUs present on the mesophotic coral ecosystem samples were shared between the marine and terrestrial environment. Subsequent analyses indicated that host species of algae significantly differentiate fungal community composition. This work demonstrates yet another understudied habitat with a moderate diversity of fungi that should be considered when estimating global fungal diversity.

Published

2017

6. Ecological distribution of protosteloid amoebae in New Zealand

Author

Steven L. Stephenson, Frederick W. Spiegel, and Geoffrey Zahn

Subjects

Ecology, Range (biology), General Neuroscience, Biogeography, lcsh:R, lcsh:Medicine, Amoebae, General Medicine, Biology, Microbiology, General Biochemistry, Genetics and Molecular Biology, Protosteloid, Habitat, Common species, Abundance (ecology), Litter, Protostelid, Species richness, General Agricultural and Biological Sciences, New Zealand

Abstract

During the period of March 2004 to December 2007, samples of aerial litter (dead but still attached plant parts) and ground litter (dead plant material on the ground) were collected from 81 study sites representing a wide range of latitudes (34°S to 50°S) and a variety of different types of habitats throughout New Zealand (including Stewart Island and the Auckland Islands). The objective was to survey the assemblages of protosteloid amoebae present in this region of the world. Twenty-nine described species of protosteloid amoebae were recorded by making morphological identifications of protosteloid amoebae fruiting bodies on cultured substrates. Of the species observed, Protostelium mycophaga was by far the most abundant and was found in more than half of all samples. Most species were found in fewer than 10% of the samples collected. Seven abundant or common species were found to display significantly increased likelihood for detection in aerial litter or ground litter microhabitats. There was some evidence of a general correlation between environmental factors - annual precipitation, elevation, and distance from the equator (latitude) - and the abundance and richness of protosteloid amoebae. An increase in each of these three factors correlated with a decrease in both abundance and richness. This study provides a thorough survey of the protosteloid amoebae present in New Zealand and adds to a growing body of evidence which suggests several correlations between their broad distributional patterns and environmental factors.

Published

2014

7. Ecological distribution of protosteloid amoebae in New Zealand

Author

Geoffrey Zahn, Steven L. Stephenson, and Frederick W. Spiegel