41 Works

Dityrosine formation via reactive oxygen consumption yields increasingly recalcitrant humic-like fluorescent organic matter in the ocean

Ryan Paerl, Iliana Claudio, Michael Shields, Thomas Bianchi & Christopher Osburn
Marine dissolved organic matter (DOM) is a massive elemental pool on Earth and is thought to consist of a chemically complex mixture of molecules. Part of marine DOM is fluorescent (FDOM) and includes humic-like compounds. The chemical composition of, and biochemical pathways that yield, autochthonous humic-like FDOM in the ocean is largely unknown. Inspired by medical and biochemical research detailing the formation of colored and fluorescent dityrosine via peroxidase mediated reactions, we used fluorometry and...

Data from: Can ancestry and morphology be used as surrogates for species niche relationships?

Friedrich Keppeler & Kirk Winemiller
Species interactions are difficult to quantify, and, consequently, many studies have used species traits and phylogeny as proxies under an assumption of niche conservatism (i.e., closely related and morphologically similar species should have similar niches). However, few studies have investigated whether niches actually are conserved within and across diverse communities. Here, we tested the degree to which phylogenetic relatedness and morphological similarity predict diets and stable isotopic ratios (δ15N and δ13C), two common descriptors of...

Data from: The upper thermal tolerance for a Texas population of the hairy maggot blow fly Chrysomya rufifacies Macquart (Diptera: Calliphoridae)

Travis Rusch, Ashleigh Faris, Lauren Beebe, Jeffery Tomberlin & Aaron Tarone
The hairy maggot blow fly (Chrysomya rufifacies: Macquart) is an invasive necrophagous fly found throughout the continental United States. Chrysomya rufifacies is of medical/veterinary, forensic, and ecological importance due to its ability to cause myiasis, colonize human remains, and displace native Diptera. However, little is known about their upper thermal tolerance, which could be used to better predict their invasion potential. We investigated the upper thermal tolerance of C. rufifacies exposed to different temperatures (20...

Under the radar: genetic assessment of Rio Grande Shiner (Notropis jemezanus) and Speckled Chub (Macrhybopsis aestivalis), two Rio Grande basin endemic cyprinids that have experienced recent range contractions

Megan Osborne, David Portnoy, Andrew Fields, Kevin Conway, Megan Bean & Christopher Hoagstrom
The Rio Grande drainage of the southwestern United States and Mexico has undergone intense anthropogenic alteration by water diversions, extraction and associated habitat changes. These alterations have disproportionately impacted the pelagic broadcast spawning guild of minnows (pelagophils). Several Rio Grande endemic pelagophils, including the co-occurring Rio Grande Shiner (Notropis jemezanus) and Speckled Chub (Macrhybopsis aestivalis), have experienced dramatic recent range-wide declines yet have slipped under the radar of conservation efforts. The status of N. jemezanus...

SARS-CoV-2 transmission and control in a hospital setting: an individual-based modelling study

Qimin Huang, Anirban Mondal, Xiaobing Jiang, Mary Ann Horn, Fei Fan, Peng Fu, Xuan Wang, Hongyang Zhao, Martial Ndeffo Mbah & David Gurarie
Background: Development of strategies for mitigating the severity of COVID-19 is now a top public health priority. We sought to assess strategies for mitigating the COVID-19 outbreak in a hospital setting via the use of non-pharmaceutical interventions. Methods: We developed an individual-based model for COVID-19 transmission in a hospital setting. We calibrated the model using data of a COVID-19 outbreak in a hospital unit in Wuhan. The calibrated model was used to simulate different intervention...

Data from: Archaeological Central American maize genomes suggest ancient gene flow from South America

Logan Kistler, Heather B. Thakar, Amber M. VanDerwarker, Alejandra Domic, Anders Bergström, Richard J. George, Thomas K. Harper, Robin G. Allaby, Kenneth Hirth & Douglas J. Kennett
Maize (Zea mays ssp. mays) domestication began in southwestern Mexico ~9,000 calendar years before present (cal. BP) and humans dispersed this important grain to South America by at least 7000 cal. BP as a partial domesticate. South America served as a secondary improvement center where the domestication syndrome became fixed and new lineages emerged in parallel with similar processes in Mesoamerica. Later, Indigenous cultivators carried a second major wave of maize southward from Mesoamerica, but...

Detoxification-related gene expression accompanies anhydrobiosis in the foliar nematode (Aphelenchoides fragariae)

Zhen Fu, Paula Agudelo & Christina Wells
The foliar nematode (Aphelenchoides fragariae) is a quarantined pest that infects a broad range of herbaceous and woody plants. Previous work has demonstrated its remarkable ability to survive rapid and extreme desiccation, although the specific mechanisms underlying its anhydrobiotic response have not been characterized. We used RNA sequencing and de novo transcriptome assembly to compare patterns of gene expression between hydrated and 24-hr desiccated nematodes. Two thousand eighty-three and 953 genes were significantly up- and...

Data from: Accurate genomic predictions for chronic wasting disease in U.S. white-tailed deer

Christopher M. Seabury, David L. Oldeschulte, Eric K. Bhattarai, Dhruti Legare, Pamela J. Ferro, Richard P. Metz, Charles D. Johnson, Mitchell A. Lockwood & Tracy A. Nichols
The geographic expansion of chronic wasting disease (CWD) in U.S. white-tailed deer (Odocoileus virginianus) has been largely unabated by best management practices, diagnostic surveillance, and depopulation of positive herds. Using a custom Affymetrix Axiom® single nucleotide polymorphism (SNP) array, we demonstrate that both differential susceptibility to CWD, and natural variation in disease progression, are moderately to highly heritable ( among farmed U.S. white-tailed deer, and that loci other than PRNP are involved. Genome-wide association analyses...

Phylogenomic analysis sheds light on the evolutionary pathways towards acoustic communication in Orthoptera

Hojun Song, Olivier Béthoux, Seunggwan Shin, Alexander Donath, Harald Letsch, Shanlin Liu, Duane D. McKenna, Guanliang Meng, Bernhard Misof, Lars Podsiadlowski, Xin Zhou, Benjamin Wipfler & Sabrina Simon
Acoustic communication is enabled by the evolution of specialised hearing and sound producing organs. In this study, we performed a large-scale macroevolutionary study to understand how both hearing and sound production evolved and affected diversification in the insect order Orthoptera, which includes many familiar singing insects, such as crickets, katydids, and grasshoppers. Using phylogenomic data, we firmly establish phylogenetic relationships among the major lineages and divergence time estimates within Orthoptera, as well as the lineage-specific...

Data from: Floral bagging differentially affects handling behaviors and single-visit pollen deposition by honey bees and native bees

Jacob Cecala, Pierre Lau & Joan Leong
Measurements of pollinator performance are crucial to pollination studies, enabling researchers to quantify the relative value of different pollinator species to plant reproduction. One of the most widely employed measures of pollinator performance is single-visit pollen deposition, the number of conspecific pollen grains deposited to a stigma after one pollinator visit. To ensure a pollen-free stigma, experimenters must first bag flowers before exposing them to a pollinator. Bagging flowers, however, may unintentionally manipulate floral characteristics...

Data from: Bee phenology is predicted by climatic variation and functional traits

Michael Stemkovski, Will Pearse, Sean Griffin, Gabriella Pardee, Jason Gibbs, Terry Griswold, John Neff, Ryan Oram, Molly RightMyer, Cory Sheffield, Karen Wright, Brian Inouye, David Inouye & Rebecca Irwin
Climate change is shifting the environmental cues that determine the phenology of interacting species. Plant-pollinator systems may be susceptible to temporal mismatch if bees and flowering plants differ in their phenological responses to warming temperatures. While the cues that trigger flowering are well-understood, little is known about what determines bee phenology. Using Generalized Additive Models, we analyzed time-series data representing 67 bee species collected over nine years in the Colorado Rocky Mountains to perform the...

Data from: Risky roots and careful herbivores: Sustained herbivory by a root-feeding herbivore attenuates indirect plant defences

John Grunseich, Morgan Thompson, Allison Hay, Zachary Gorman, Michael Kolomiets, Micky Eubanks & Anjel Helms
Abstract Aboveground plant tissues produce characteristic blends of volatile compounds in response to insect herbivory. These herbivore-induced plant volatiles (HIPVs) function in plant defence and mediate foraging decisions by herbivores and their natural enemies. The ecological roles of HIPVs as foraging cues for different trophic levels highlight an important conflict for herbivores that need to locate suitable host plants while avoiding competition and predation. Plant roots also emit HIPVs following herbivory, but our understanding of...

Data from: Genotype and male sterility phenotype data for An. coluzzii x An. quadriannulatus backcross

Kevin Deitz, Willem Takken & Michel Slotman
The Anopheles gambiae complex is comprised of eight morphologically indistinguishable species and has emerged as a model system for the study of speciation genetics due to the rapid radiation of its member species over the past two million years. Male hybrids between most An. gambiae complex species pairs are sterile, and some genotype combinations in hybrid males cause inviability. We investigated the genetic basis of hybrid male inviability and sterility between An. coluzzii and An....

Geography of artiodactyl locomotor morphology as an environmental predictor

Rachel Short & A. Michelle Lawing
Aim: We investigate locomotor function in artiodactyls, represented by calcaneal gear ratio, as it relates to multiple environments. Using an ecometrics approach, we develop a trait-environment model to investigate ecosystem level changes through time and to reconstruct past environments. We apply the trait-environment model to a case study of six sites in Kenya to evaluate changes over the past 100 years. Location: Global. Methods: Locomotor morphology was represented by calcaneal gear ratios measured as the...

The evolutionary history of sedges (Cyperaceae) in Madagascar

Isabel Larridon, Daniel Spalink, Pedro Jiménez-Mejías, José Ignacio Márquez-Corro, Santiago Martín-Bravo & Marcial Escudero
Aim: Madagascar is renowned for its unparalleled biodiversity and endemism. With many ecosystems under threat, research is urgently needed on its unique plant diversity. This applies both to Madagascar’s forests and treeless vegetation types. Sedges (Cyperaceae) are among the top ten species-richest angiosperm families in Madagascar (310 native species, 38% endemic), of which two thirds occur in open habitats. We aimed to infer the evolutionary history of sedges in Madagascar, by estimating the number, age...

Whole genome analysis reveals aneuploidies in early pregnancy loss in the horse

Shilton Charlotte A., Anne Kahler, Brian W. Davis, James R. Crabtree, James Crowhurst, Andrew J. McGladdery, Claire Wathes, Terje Raudsepp & Amanda M. de Mestre

Registration Year

  • 2020
    41

Resource Types

  • Dataset
    41

Affiliations

  • Texas A&M University
    41
  • Wageningen University & Research
    3
  • Cornell University
    3
  • The University of Texas at Austin
    2
  • University of Florida
    2
  • Case Western Reserve University
    2
  • Donald Danforth Plant Science Center
    1
  • Texas A&M University System
    1
  • Institute of Arctic and Alpine Research
    1
  • Stanford University
    1