Search

Your search keyword '"Davis, Charles C."' showing total 988 results
Start Over Author "Davis, Charles C."
988 results on '"Davis, Charles C."'

1. Plasticity and not adaptation is the primary source of temperature-mediated variation in flowering phenology in North America

Author

Ramirez-Parada, Tadeo H, Park, Isaac W, Record, Sydne, Davis, Charles C, Ellison, Aaron M, and Mazer, Susan J

Subjects
Climate Change Impacts and Adaptation, Biological Sciences, Ecology, Environmental Sciences, Climate Action, United States, Temperature, Flowers, Climate Change, Climate, North America, Evolutionary biology, Environmental management
Abstract

Phenology varies widely over space and time because of its sensitivity to climate. However, whether phenological variation is primarily generated by rapid organismal responses (plasticity) or local adaptation remains unresolved. Here we used 1,038,027 herbarium specimens representing 1,605 species from the continental United States to measure flowering-time sensitivity to temperature over time (Stime) and space (Sspace). By comparing these estimates, we inferred how adaptation and plasticity historically influenced phenology along temperature gradients and how their contributions vary among species with different phenology and native climates and among ecoregions differing in species composition. Parameters Sspace and Stime were positively correlated (r = 0.87), of similar magnitude and more frequently consistent with plasticity than adaptation. Apparent plasticity and adaptation generated earlier flowering in spring, limited responsiveness in late summer and delayed flowering in autumn in response to temperature increases. Nonetheless, ecoregions differed in the relative contributions of adaptation and plasticity, from consistently greater importance of plasticity (for example, southeastern United States plains) to their nearly equal importance throughout the season (for example, Western Sierra Madre Piedmont). Our results support the hypothesis that plasticity is the primary driver of flowering-time variation along temperature gradients, with local adaptation having a widespread but comparatively limited role.

Published
2024

3. The colonial legacy of herbaria

Author

Park, Daniel S., Feng, Xiao, Akiyama, Shinobu, Ardiyani, Marlina, Avendaño, Neida, Barina, Zoltan, Bärtschi, Blandine, Belgrano, Manuel, Betancur, Julio, Bijmoer, Roxali, Bogaerts, Ann, Cano, Asunción, Danihelka, Jiří, Garg, Arti, Giblin, David E., Gogoi, Rajib, Guggisberg, Alessia, Hyvärinen, Marko, James, Shelley A., Sebola, Ramagwai J., Katagiri, Tomoyuki, Kennedy, Jonathan A., Komil, Tojibaev Sh., Lee, Byoungyoon, Lee, Serena M. L., Magri, Donatella, Marcucci, Rossella, Masinde, Siro, Melnikov, Denis, Mráz, Patrik, Mulenko, Wieslaw, Musili, Paul, Mwachala, Geoffrey, Nelson, Burrell E., Niezgoda, Christine, Novoa Sepúlveda, Carla, Orli, Sylvia, Paton, Alan, Payette, Serge, Perkins, Kent D., Ponce, Maria Jimena, Rainer, Heimo, Rasingam, L., Rustiami, Himmah, Shiyan, Natalia M., Bjorå, Charlotte Sletten, Solomon, James, Stauffer, Fred, Sumadijaya, Alex, Thiébaut, Mélanie, Thiers, Barbara M., Tsubota, Hiromi, Vaughan, Alison, Virtanen, Risto, Whitfeld, Timothy J. S., Zhang, Dianxiang, Zuloaga, Fernando O., and Davis, Charles C.

Published
2023
Full Text
View/download PDF

4. Widespread homogenization of plant communities in the Anthropocene

Author

Daru, Barnabas H, Davies, T Jonathan, Willis, Charles G, Meineke, Emily K, Ronk, Argo, Zobel, Martin, Pärtel, Meelis, Antonelli, Alexandre, and Davis, Charles C

Subjects
Climate Change Impacts and Adaptation, Biological Sciences, Ecology, Environmental Sciences, Life Below Water, Africa, Algorithms, Asia, Australia, Biodiversity, Databases, Factual, Ecosystem, Europe, Geography, Human Activities, Human Migration, Humans, Models, Theoretical, North America, Phylogeny, Plants
Abstract

Native biodiversity decline and non-native species spread are major features of the Anthropocene. Both processes can drive biotic homogenization by reducing trait and phylogenetic differences in species assemblages between regions, thus diminishing the regional distinctiveness of biotas and likely have negative impacts on key ecosystem functions. However, a global assessment of this phenomenon is lacking. Here, using a dataset of >200,000 plant species, we demonstrate widespread and temporal decreases in species and phylogenetic turnover across grain sizes and spatial extents. The extent of homogenization within major biomes is pronounced and is overwhelmingly explained by non-native species naturalizations. Asia and North America are major sources of non-native species; however, the species they export tend to be phylogenetically close to recipient floras. Australia, the Pacific and Europe, in contrast, contribute fewer species to the global pool of non-natives, but represent a disproportionate amount of phylogenetic diversity. The timeline of most naturalisations coincides with widespread human migration within the last ~500 years, and demonstrates the profound influence humans exert on regional biotas beyond changes in species richness.

Published
2021

5. Phenological sensitivity to temperature mediates herbivory

Author

Meineke, Emily K, Davis, Charles C, and Davies, T Jonathan

Subjects
Climate Action, Animals, Climate Change, Ecosystem, France, Herbivory, New England, Seasons, Temperature, Anthropocene, climate change, global change, herbivore, insect, phenology, species interactions, warming, Environmental Sciences, Biological Sciences, Ecology
Abstract

Species interactions drive ecosystem processes and are a major focus of global change research. Among the most consequential interactions expected to shift with climate change are those between insect herbivores and plants, both of which are highly sensitive to temperature. Insect herbivores and their host plants display varying levels of synchrony that could be disrupted or enhanced by climate change, yet empirical data on changes in synchrony are lacking. Using evidence of herbivory on herbarium specimens collected from the northeastern United States and France from 1900 to 2015, we provide evidence that plant species with temperature-sensitive phenologies experience higher levels of insect damage in warmer years, while less temperature-sensitive, co-occurring species do not. While herbivory might be mediated by interactions between warming and phenology through multiple pathways, we suggest that warming might lengthen growing seasons for phenologically sensitive plant species, exposing their leaves to herbivores for longer periods of time in warm years. We propose that elevated herbivory in warm years may represent a previously underappreciated cost to phenological tracking of climate change over longer timescales.

Published
2021

6. Starting Or Expanding A Business On Property In Tampa? Time To Consider Land Use And Zoning Regulations

Author

Davis, Charles C. III

Subjects
Tampa, Florida -- Economic policy -- Natural resource policy, New business enterprises -- Laws, regulations and rules -- Buildings and facilities, Zoning law, Government regulation, Business, international
Abstract

Tampa's significant market growth draws investment and talent at record rates, making it one of the most attractive places in Florida, if not the United States, to do business. But [...]

Published
2024

7. Selecting the best candidates for resurrecting extinct-in-the-wild plants from herbaria

Author

Albani Rocchetti, Giulia, Carta, Angelino, Mondoni, Andrea, Godefroid, Sandrine, Davis, Charles C., Caneva, Giulia, Albrecht, Matthew A., Alvarado, Karla, Bijmoer, Roxali, Borosova, Renata, Bräeuchler, Christian, Breman, Elinor, Briggs, Marie, Buord, Stephane, Cave, Lynette H., Da Silva, Nílber Gonçalves, Davey, Alexandra H., Davies, Rachael M., Dickie, John B., Fabillo, Melodina, Fleischmann, Andreas, Franks, Andrew, Hall, Geoffrey, Kantvilas, Gintaras, Klak, Cornelia, Liu, Udayangani, Medina, Leopoldo, Reinhammar, Lars Gunnar, Sebola, Ramagwai J., Schönberger, Ines, Sweeney, Patrick, Voglmayr, Hermann, White, Adam, Wieringa, Jan J., Zippel, Elke, and Abeli, Thomas

Published
2022
Full Text
View/download PDF

8. The evolutionary history of bees in time and space

Author

Almeida, Eduardo A.B., Bossert, Silas, Danforth, Bryan N., Porto, Diego S., Freitas, Felipe V., Davis, Charles C., Murray, Elizabeth A., Blaimer, Bonnie B., Spasojevic, Tamara, Ströher, Patrícia R., Orr, Michael C., Packer, Laurence, Brady, Seán G., Kuhlmann, Michael, Branstetter, Michael G., and Pie, Marcio R.

Published
2023
Full Text
View/download PDF

9. Machine Learning Using Digitized Herbarium Specimens to Advance Phenological Research.

Author

Pearson, Katelin D, Nelson, Gil, Aronson, Myla FJ, Bonnet, Pierre, Brenskelle, Laura, Davis, Charles C, Denny, Ellen G, Ellwood, Elizabeth R, Goëau, Hervé, Heberling, J Mason, Joly, Alexis, Lorieul, Titouan, Mazer, Susan J, Meineke, Emily K, Stucky, Brian J, Sweeney, Patrick, White, Alexander E, and Soltis, Pamela S

Subjects
biodiversity, climate change, deep learning, machine learning, phenology, Climate Action, Environmental Sciences, Biological Sciences, Ecology
Abstract

Machine learning (ML) has great potential to drive scientific discovery by harvesting data from images of herbarium specimens-preserved plant material curated in natural history collections-but ML techniques have only recently been applied to this rich resource. ML has particularly strong prospects for the study of plant phenological events such as growth and reproduction. As a major indicator of climate change, driver of ecological processes, and critical determinant of plant fitness, plant phenology is an important frontier for the application of ML techniques for science and society. In the present article, we describe a generalized, modular ML workflow for extracting phenological data from images of herbarium specimens, and we discuss the advantages, limitations, and potential future improvements of this workflow. Strategic research and investment in specimen-based ML methods, along with the aggregation of herbarium specimen data, may give rise to a better understanding of life on Earth.

Published
2020

11. Biological collections for understanding biodiversity in the Anthropocene

Author

Meineke, Emily K, Davies, T Jonathan, Daru, Barnabas H, and Davis, Charles C

Subjects
Biodiversity, Environment, Museums, Specimen Handling, global change, climate change, museum, historical data, Anthropocene, herbarium, Biological Sciences, Medical and Health Sciences, Evolutionary Biology
Abstract

Global change has become a central focus of modern biology. Yet, our knowledge of how anthropogenic drivers affect biodiversity and natural resources is limited by a lack of biological data spanning the Anthropocene. We propose that the hundreds of millions of plant, fungal and animal specimens deposited in natural history museums have the potential to transform the field of global change biology. We suggest that museum specimens are underused, particularly in ecological studies, given their capacity to reveal patterns that are not observable from other data sources. Increasingly, museum specimens are becoming mobilized online, providing unparalleled access to physiological, ecological and evolutionary data spanning decades and sometimes centuries. Here, we describe the diversity of collections data archived in museums and provide an overview of the diverse uses and applications of these data as discussed in the accompanying collection of papers within this theme issue. As these unparalleled resources are under threat owing to budget cuts and other institutional pressures, we aim to shed light on the unique discoveries that are possible in museums and, thus, the singular value of natural history collections in a period of rapid change.This article is part of the theme issue 'Biological collections for understanding biodiversity in the Anthropocene'.

Published
2019

13. Digitization protocol for scoring reproductive phenology from herbarium specimens of seed plants.

Author

Yost, Jennifer M, Sweeney, Patrick W, Gilbert, Ed, Nelson, Gil, Guralnick, Robert, Gallinat, Amanda S, Ellwood, Elizabeth R, Rossington, Natalie, Willis, Charles G, Blum, Stanley D, Walls, Ramona L, Haston, Elspeth M, Denslow, Michael W, Zohner, Constantin M, Morris, Ashley B, Stucky, Brian J, Carter, J Richard, Baxter, David G, Bolmgren, Kjell, Denny, Ellen G, Dean, Ellen, Pearson, Katelin D, Davis, Charles C, Mishler, Brent D, Soltis, Pamela S, and Mazer, Susan J

Subjects
citizen science, digitization workflows, herbarium specimens, ontology, phenology, Crop and Pasture Production
Abstract

Premise of the Study:Herbarium specimens provide a robust record of historical plant phenology (the timing of seasonal events such as flowering or fruiting). However, the difficulty of aggregating phenological data from specimens arises from a lack of standardized scoring methods and definitions for phenological states across the collections community. Methods and Results:To address this problem, we report on a consensus reached by an iDigBio working group of curators, researchers, and data standards experts regarding an efficient scoring protocol and a data-sharing protocol for reproductive traits available from herbarium specimens of seed plants. The phenological data sets generated can be shared via Darwin Core Archives using the Extended MeasurementOrFact extension. Conclusions:Our hope is that curators and others interested in collecting phenological trait data from specimens will use the recommendations presented here in current and future scoring efforts. New tools for scoring specimens are reviewed.

Published
2018

19. Digitization and the Future of Natural History Collections

Author

HEDRICK, BRANDON P., HEBERLING, J. MASON, MEINEKE, EMILY K., TURNER, KATHRYN G., GRASSA, CHRISTOPHER J., PARK, DANIEL S., KENNEDY, JONATHAN, CLARKE, JULIA A., COOK, JOSEPH A., BLACKBURN, DAVID C., EDWARDS, SCOTT V., and DAVIS, CHARLES C.

Published
2020

21. Old Plants, New Tricks: Phenological Research Using Herbarium Specimens.

Author

Willis, Charles G, Ellwood, Elizabeth R, Primack, Richard B, Davis, Charles C, Pearson, Katelin D, Gallinat, Amanda S, Yost, Jenn M, Nelson, Gil, Mazer, Susan J, Rossington, Natalie L, Sparks, Tim H, and Soltis, Pamela S

Subjects
Plants, Flowers, Temperature, Seasons, Phylogeny, Climate Change, climate change, flowering, museums, phenology, plants, Evolutionary Biology, Biological Sciences, Environmental Sciences
Abstract

The timing of phenological events, such as leaf-out and flowering, strongly influence plant success and their study is vital to understanding how plants will respond to climate change. Phenological research, however, is often limited by the temporal, geographic, or phylogenetic scope of available data. Hundreds of millions of plant specimens in herbaria worldwide offer a potential solution to this problem, especially as digitization efforts drastically improve access to collections. Herbarium specimens represent snapshots of phenological events and have been reliably used to characterize phenological responses to climate. We review the current state of herbarium-based phenological research, identify potential biases and limitations in the collection, digitization, and interpretation of specimen data, and discuss future opportunities for phenological investigations using herbarium specimens.

Published
2017

22. Pleistocene glaciation advances the cryptic speciation of Stellera chamaejasme L. in a major biodiversity hotspot.

Author

Rana, Santosh Kumar, Rana, Hum Kala, Landis, Jacob B., Kuang, Tianhui, Chen, Juntong, Wang, Hengchang, Deng, Tao, Davis, Charles C., and Sun, Hang

Subjects
VICARIANCE, GENETIC speciation, PLEISTOCENE Epoch, CLIMATE change, SPECIES diversity, PHYLOGEOGRAPHY
Abstract

The mountains of Southwest China comprise a significant large mountain range and biodiversity hotspot imperiled by global climate change. The high species diversity in this mountain system has long been attributed to a complex set of factors, and recent large‐scale macroevolutionary investigations have placed a broad timeline on plant diversification that stretches from 10 million years ago (Mya) to the present. Despite our increasing understanding of the temporal mode of speciation, finer‐scale population‐level investigations are lacking to better refine these temporal trends and illuminate the abiotic and biotic influences of cryptic speciation. This is largely due to the dearth of organismal sampling among closely related species and populations, spanning the incredible size and topological heterogeneity of this region. Our study dives into these evolutionary dynamics of speciation using genomic and eco‐morphological data of Stellera chamaejasme L. We identified four previously unrecognized cryptic species having indistinct morphological traits and large metapopulation of evolving lineages, suggesting a more recent diversification (~2.67–0.90 Mya), largely influenced by Pleistocene glaciation and biotic factors. These factors likely influenced allopatric speciation and advocated cyclical warming–cooling episodes along elevational gradients during the Pleistocene. The study refines the evolutionary timeline to be much younger than previously implicated and raises the concern that projected future warming may influence the alpine species diversity, necessitating increased conservation efforts. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

23. Climates and clades: biased methods, biased results

Author

Davis, Charles C., Schaefer, Hanno, Ruhfel, Brad R., Donoghue, Michael J., and Edwards, Erika J.

Subjects
Quantitative Biology - Populations and Evolution
Abstract

Thuiller et al. analyzed the consequences of anticipated climate change on plant, bird, and mammal phylogenetic diversity (PD) across Europe. They concluded that species loss will not be clade specific across the Tree of Life, and that there will not be an overall decline in PD across the whole of Europe. We applaud their attempt to integrate phylogenetic knowledge into scenarios of future extinction but their analyses raise a series of concerns. We focus here on their analyses of plants., Comment: 7 pages, 1 figure

Published
2014

44. Medicinal plants meet modern biodiversity science.

Author

Davis, Charles C. and Choisy, Patrick

Subjects
*MEDICINAL plants, *MOLECULAR biology, *COMMENSALISM, *CHEMICAL plants, *TRADITIONAL knowledge, *PLANT evolution, *PLANT species, *TRADITIONAL ecological knowledge
Abstract

Plants have been an essential source of human medicine for millennia. In this review, we argue that a holistic, interdisciplinary approach to the study of medicinal plants that combines methods and insights from three key disciplines — evolutionary ecology, molecular biology/biochemistry, and ethnopharmacology — is poised to facilitate new breakthroughs in science, including pharmacological discoveries and rapid advancements in human health and well-being. Such interdisciplinary research leverages data and methods spanning space, time, and species associated with medicinal plant species evolution, ecology, genomics, and metabolomic trait diversity, all of which build heavily on traditional Indigenous knowledge. Such an interdisciplinary approach contrasts sharply with most well-funded and successful medicinal plant research during the last half-century, which, despite notable advancements, has greatly oversimplified the dynamic relationships between plants and humans, kept hidden the larger human narratives about these relationships, and overlooked potentially important research and discoveries into life-saving medicines. We suggest that medicinal plants and people should be viewed as partners whose relationship involves a complicated and poorly explored set of (socio-)ecological interactions including not only domestication but also commensalisms and mutualisms. In short, medicinal plant species are not just chemical factories for extraction and exploitation. Rather, they may be symbiotic partners that have shaped modern societies, improved human health, and extended human lifespans. Davis and Choisy review how scientific understanding of medicinal plants will be revolutionized by integrating and synthesizing concepts and methods from the diverse fields of Evolutionary Ecology, Molecular Biology and Biochemistry, and Ethnopharmacology. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results