The genus Buellia remains one of the largest, poorly resolved genera of crustose lichens world-wide. A global revision is challenging because of its enormous diversity .As a step towards a more comprehensive revision, three easily separated groups were examined. Buellia…
The genus Buellia remains one of the largest, poorly resolved genera of crustose lichens world-wide. A global revision is challenging because of its enormous diversity .As a step towards a more comprehensive revision, three easily separated groups were examined. Buellia sulphurica is easily recognized by its vivid yellow color, caused by rhizocarpic acid, a secondary metabolite rarely reported from the genus. The species has been considered endemic to the Galapagos, but it is morphologically and anatomically almost identical to B. xanthinula, a taxon previously described from Brazil. Moreover, both have rhizocarpic acid. Additionally, a specimen from Georgia with a similar morphology and anatomy with identical secondary chemistry has been examined here. Based on this research, it is discussed whether all three taxa represent a single species. Another aspect of the research presented here focused on species of Buellia that parasitize other lichens. It is generally assumed that they are strongly host-specific. Parasitic specimens of Buellia recently collected in the Great Basin are morphologically similar to taxa previously reported from Northern Europe, South America, and North America. Preliminary studies, comparing the material with specimens of B. uberior, B. miriquidica, B. malmei and B. imshaugii, suggest that the Great Basin material is best recognized as representatives of distinct, currently undescribed species. Finally, as part of this thesis a group of specimens from the Galapagos containing xanthones has been examined. This heterogeneous group represents an assemblage of taxa that are not necessarily closely related, but easily recognized by their bright yellow to orange UV-fluorescence and orange spot test reaction with sodium hypochlorite. For this group, morphological and anatomical characters were documented, and their secondary chemistry analyzed with thin-layer chromatography. For all three groups, i.e., the Buellia xanthinula-group, the parasitic species, and the ones with xanthones, detailed descriptions are provided.
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Biogeography places the geographical distribution of biodiversity in an evolutionary context. Ants (Hymenoptera: Formicidae), being a group of ubiquitous, ecologically dominant, and diverse insects, are useful model systems to understand the evolutionary origins and mechanisms of biogeographical patterns across spatial…
Biogeography places the geographical distribution of biodiversity in an evolutionary context. Ants (Hymenoptera: Formicidae), being a group of ubiquitous, ecologically dominant, and diverse insects, are useful model systems to understand the evolutionary origins and mechanisms of biogeographical patterns across spatial scales. On a global scale, ants have been used to test hypotheses on the origin and maintenance of the remarkably consistent latitudinal diversity gradient where biodiversity peaks in the equatorial tropics and decreases towards the poles. Additionally, ants have been used to posit and test theories of island biogeography such as the mechanisms of the species-area relationship, being the increase of biodiversity with cumulative land area. However, there are still unanswered questions about ant biogeography such as how specialized life histories contribute to their global biogeographical patterns. Furthermore, there remain island systems in the world’s biodiversity hotspots that harbor much less ant species than predicted by the species-area relationship, which potentially suggests a place ripe for discovery. In this dissertation, I use natural history, taxonomic, geographic, and phylogenetic data to study ant biodiversity and biogeography across spatial scales. First, I study the global biodiversity and biogeography of a specialized set of symbiotic interactions between ant species, here referred to as myrmecosymbioses, with an emphasis on social parasitism where one species exploits the parental care behavior and social colony environment of another species. In addition to characterizing a new myrmecosymbiosis, I use a global biogeographic and phylogenetic dataset to show that ant social parasitism is distributed along an inverse latitudinal diversity gradient where species richness and independent evolutionary origins of social parasitism peak within the northern hemisphere where the least free-living ant diversity exists. Second, I study the unexplored ant fauna of the Vanuatuan archipelago in the South Pacific. Using approximately 10,000 Vanuatuan ant specimens coupled with phylogenomics, I fill in a historical knowledge gap of South Pacific ant biogeography and demonstrate that the Vanuatuan ant fauna is a novel biodiversity hotspot. With these studies, I provide insights into how specialized life histories and unique island biotas shape the global distribution of biodiversity in different ways, especially in the ants.
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Genome-wide, single nucleotide polymorphisms (SNPs) and germination data were analyzed to better understand species delimitation and salt-tolerance within the legume genus Medicago. Molecular phylogenies revealed that the widely-used, genomic model line R108 and two deeply divergent accessions of Medicago truncatula…
Genome-wide, single nucleotide polymorphisms (SNPs) and germination data were analyzed to better understand species delimitation and salt-tolerance within the legume genus Medicago. Molecular phylogenies revealed that the widely-used, genomic model line R108 and two deeply divergent accessions of Medicago truncatula are in fact more closely related to Medicago littoralis than to other accessions representing Medicago truncatula. This result was supported by germination data wherein the two accessions representing deeply divergent Medicago truncatula demonstrated salt-tolerance that was more similar to Medicago littoralis than to other accessions of Medicago truncatula. Molecular phylogenies revealed that two additional accessions representing deeply divergent Medicago truncatula appear to be more closely related to Medicago italica than to other accessions representing Medicago truncatula. The results of the present study elucidate complex evolutionary relationships and contribute to the present understanding of existing salt-tolerance within Medicago.
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Tropical peatlands play a critical role in global carbon storage and greenhouse gas flux, yet the role of microbial communities in these ecosystems remains poorly understood. Methane-oxidizing bacteria (MOB) are considered an efficient biological filter for methane and can mitigate…
Tropical peatlands play a critical role in global carbon storage and greenhouse gas flux, yet the role of microbial communities in these ecosystems remains poorly understood. Methane-oxidizing bacteria (MOB) are considered an efficient biological filter for methane and can mitigate its release into the atmosphere, facilitating an ecosystem’s capacity to become a net sink. Prokaryotic gene amplicon surveys targeting a unique biomarker instead of a universal one (i.e., 16S rRNA) can reveal a more comprehensive analysis of microbial communities with ecological functions (i.e., methanotrophy). The alpha subunit of particulate methane monooxygenase (pmoA) is commonly targeted as a phylogenetic biomarker for both aerobic and anaerobic MOB. Here, we tested three different primer sets and investigated their ability to assess methanotrophic diversity across three biogeochemically distinct tropical peatland sites in the Pastaza-Marañón foreland basin (PMFB) in western Amazonia. The results showed that sequencing using 16S rRNA and pmoA genes revealed differences in MOB taxonomic identification in 21 tropical peat soils. Beta diversity analysis of pmoA genes suggests that site location is not the main driver of differences in MOB community makeup. This work offers insight into the strengths and weaknesses of targeted gene amplicon surveys using 16S and pmoA from tropical peat soils as a case study.
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The family Cactaceae is extremely diverse and has a near global distribution yet very little has been described regarding the community of viruses that infect or are associated with cacti. This research characterizes the diversity of viruses associated with Cactaceae…
The family Cactaceae is extremely diverse and has a near global distribution yet very little has been described regarding the community of viruses that infect or are associated with cacti. This research characterizes the diversity of viruses associated with Cactaceae plants and their evolutionary aspects. Five viruses belonging to the economically relevant plant virus family Geminiviridae were identified, initially, two novel divergent geminiviruses named Opuntia virus 1 (OpV1) and Opuntia virus 2 (OpV2) and Opuntia becurtovirus, a new strain within the genus Becurtovirus. These three viruses were also found in co-infection. In addition, two known geminiviruses, the squash leaf curl virus (SLCV) and watermelon chlorotic stunt virus (WCSV) were identified infecting Cactaceae plants and other non-cactus plants in the USA and Mexico. Both SLCV and WCSV are known to cause severe disease in cultivated Cucurbitaceae plants in the USA and Middle East, respectively. This study shows that WCSV was introduced in the America two times, and it is the first identification of this virus in the USA, demonstrating is likely more widespread in North America. These findings along with the Opuntia becurtovirus are probable events of spill-over in agro-ecological interfaces. A novel circular DNA possibly bipartite plant-infecting virus that encodes protein similar to those of geminiviruses was also identified in an Opuntia discolor plant in Brazil, named utkilio virus, but it is evolutionary distinct likely belonging to a new taxon. Viruses belonging to the ssDNA viral family Genomoviridae are also described and those thus far been associated with fungi hosts, so it is likely the ones identified in plants are associated with their phytobiome. Overall, the results of this project provide a molecular and biological characterization of novel geminiviruses and genomoviruses associated with cacti as well as demonstrate the impact of agro-ecological interfaces in the spread of viruses from or to native plants. It also highlights the importance of viral metagenomics studies in exploring virus diversity and evolution given then amount of virus diversity identified. This is important for conservation and management of cacti in a global scale, including the relevance of controlled movement of plants within countries.
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This project was completed to understand the evolution of the ability to digest wood in termite symbiotic protists. Lower termites harbor bacterial and protist symbionts which are essential to the termite ability to use wood as a nutritional source, producing…
This project was completed to understand the evolution of the ability to digest wood in termite symbiotic protists. Lower termites harbor bacterial and protist symbionts which are essential to the termite ability to use wood as a nutritional source, producing glycoside hydrolases to break down the polysaccharides found in lignocellulose. Yet, only a few molecular studies have been done to confirm the protist species responsible for particular enzymes. By mining publicly available and newly generated genomic and transcriptomic data, including three transcriptomes from isolated protist cells, I identify over 200 new glycoside hydrolase sequences and compute the phylogenies of eight glycoside hydrolase families (GHFs) reported to be expressed by termite hindgut protists.
Of those families examined, the results are broadly consistent with Todaka et al. 2010, though none of the GHFs found were expressed in both termite-associated protist and non-termite-associated protist transcriptome data. This suggests that, rather than being inherited from their free-living protist ancestors, GHF genes were acquired by termite protists while within the termite gut, potentially via lateral gene transfer (LGT). For example one family, GHF10, implies a single acquisition of a bacterial xylanase into termite protists. The phylogenies from GHF5 and GHF11 each imply two distinct acquisitions in termite protist ancestors, each from bacteria. In eukaryote-dominated GHFs, GHF7 and GHF45, there are three apparent acquisitions by termite protists. Meanwhile, it appears prior reports of GHF62 in the termite gut may have been misidentified GHF43 sequences. GHF43 was the only GHF found to contain sequences from the protists not found in the termite gut. These findings generally all support the possibility termite-associated protists adapted to a lignocellulosic diet after colonization of the termite hindgut. Nonetheless, the poor resolution of GHF phylogeny and limited termite and protist sampling constrain interpretation.
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A floristic analysis is essential to understanding the current diversity and structure
of community associations of plants in a region. Also, a region’s floristic analysis is key not only to investigating their geographical origin(s) but is necessary to their management and…
A floristic analysis is essential to understanding the current diversity and structure
of community associations of plants in a region. Also, a region’s floristic analysis is key not only to investigating their geographical origin(s) but is necessary to their management and protection as a reservoir of greater biodiversity. With an area of 2,250,000 square kilometers, the country of Saudi Arabia covers almost four-fifths of the Arabian Peninsula. Efforts to document information on the flora of Saudi Arabia began in the 1700s and have resulted in several comprehensive publications over the last 25 years. There is no doubt that these studies have helped both the community of scientific researchers as well as the public to gain knowledge about the number of species, types of plants, and their distribution in Saudi Arabia. However, there has been no effort to use digital technology to make the data contained in various Saudi herbarium collections easily accessible online for research and teaching purposes. This research project aims to develop a “virtual flora” portal for the vascular plants of Saudi Arabia. Based on SEINet and the Symbiota software used to power it, a preliminary website portal was established to begin an effort to make information of Saudi Arabia’s flora available on the world- wide web. Data comprising a total of 12,834 specimens representing 175 families were acquired from different organizations and used to create a database for the designed website. After analyzing the data, the Fabaceae family (“legumes”) was identified as a largest family and chosen for further analysis. This study contributes to help scientific researchers, government workers and the general public to have easy, unlimited access to the plant information for a variety of purposes.
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There is a relative lack of basic information about early diverging species of the genus Medicago that, for the most part, were formerly considered to be in the genus Trigonella. Species boundaries are not always clear, for example, the most…
There is a relative lack of basic information about early diverging species of the genus Medicago that, for the most part, were formerly considered to be in the genus Trigonella. Species boundaries are not always clear, for example, the most recent treatment of the genus Medicago submerged four previously recognized species into Medicago monantha, a widely distributed species in the Middle East. These species are recognized on the basis of morphological characters such as fruit number, shape, length and areole shape and size, but species identification is still challenging and further clarification of species boundaries is needed. There is also a lack of cytogenetic information. Some of the relatively few published chromosome numbers, e.g. 2n=28, and 44, differ from those of the rest of the genus, which are mostly 2n=16 or multiples thereof, although seven species are 2n=14. As part of a larger study of the genome and chromosome number evolution in the genus Medicago, we obtained genome size data using flow cytometry for 44 accessions of 14 currently recognized early diverging species, with a focus on Medicago monantha. Chromosome numbers were obtained using standard cytological methods. Our chromosome number data confirm a chromosome number of 2n=16 for M. brachycarpa (genome size of 1.33 pg), and M. monspeliaca (1.88 pg), and 2n=28 for M. polyceratia (2.77 pg) and give new numbers for some species; 2n=16 for M. biflora (2.7 pg), and a previously unknown chromosome number for these early diverging species of 2n=14 for Medicago fischeriana (~1.35 pg). Interestingly, our data support the hypothesis that there are at least two entities within M. monantha as currently recognized that differ in chromosome number and genome size; two accessions had chromosome numbers of 2n=26 and 30 with corresponding genome sizes of 2.68 and 2.85 pg and three other accessions had chromosome numbers 2n=36,44, and another 44 with genome sizes of 3.94, 3.89, and 4.04 pg. There are also some significant morphological differences between these two entities, such as fruit length and areole area. These data lead to both further clarification of the relationships of early diverging Medicago and help build a platform for more in-depth research concerning the evolution of chromosome number and genome size within Medicago.
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Type I H+-PPase encoding genes, such as AVP1 (Arabidopsis thaliana), TsVP (Thellungiella halophilla), TaVP,( Triticum aestivum), and OVP1 (Oryza sativa) are highly conserved and.traditionally known to operate as vacuolar proton translocating pyrophosphatases. It is worth mentioning that Rocha-Facanha and de…
Type I H+-PPase encoding genes, such as AVP1 (Arabidopsis thaliana), TsVP (Thellungiella halophilla), TaVP,( Triticum aestivum), and OVP1 (Oryza sativa) are highly conserved and.traditionally known to operate as vacuolar proton translocating pyrophosphatases. It is worth mentioning that Rocha-Facanha and de Meis presented in vitro evidence with tonoplast fractions of maize coleoptiles and seeds consistent with the reverse function of the H+-PPase (1998). These authors suggested that given the appropriate thermodynamic conditions in vivo, the H+-PPase could operate as a system of energy conservation with a role in the maintenance of cytosolic PPi levels. Further evidence in support for a PPi-synthase activity of plant H+-PPases came from work done on tonoplasts from mature oranges where PPi synthesis was demonstrated when a ΔpH of 3 units was imposed (Marsh et al. 2000).
Futher research has shown that transgenics overexpressing type I H+-PPases develop more root and shoot biomass, and have enhanced rhizosphere acidification capacity than wild types. The increased root biomass suggests that previous reports describing the response of these plants to water scarcity as drought tolerance are incomplete. Larger root systems indicate that an important component of the response is drought resistance. The enhanced rhizosphere acidification capacity has also been associated with an increase in nutrient use efficiency, conferring a growth advantage under nitrogen and phosphorous deficient conditions. While a vacuolar localized H+-PPase easily explains the salt tolerant phenotypes, it does little to provide a mechanism for an increase in root and shoot biomass and/or an augmented rhizosphere acidification capacity. Several groups have argued that higher levels and transport of the growth hormone auxin could be responsible for the above phenotypes. An alternative model focusing on the function of a plasma membrane bound H+-PPase in sieve elements and companion cells links these phenotypes with enhanced phloem sucrose loading and transport. The following paper reviews publications in which the H+-PPase overexpression technology has been used since 2006 in an attempt to identify cues that could help us test the compatibility of the the proposed models with the actual data.
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Overexpression of AVP1 (Arabidopsis vacuolar pyrophosphatase), a type I H+ pyrophosphatase, results in greater biomass, possibly due to a function in sucrose transport within the phloem. Overexpression of the phloem lipid-associated family protein (PLAFP) was shown to increase the number…
Overexpression of AVP1 (Arabidopsis vacuolar pyrophosphatase), a type I H+ pyrophosphatase, results in greater biomass, possibly due to a function in sucrose transport within the phloem. Overexpression of the phloem lipid-associated family protein (PLAFP) was shown to increase the number of vascular bundles in Arabidopsis. Could these two phenotypes complement one another additively? In this work, double mutants overexpressing both AVP1 and PLAFP were characterized. These double mutants have enhanced biomass, greater leaf area, and a larger number of vascular bundles than the single mutant lines. Overexpression of PLAFP does not result in any increase in rhizosphere acidification capacity.
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