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Showing 1-20 of about 285 results.
Challenges and Opportunities in Orchid Ecology and ConservationDOI: info:10.3389/978-2-8325-2853-2Frontiers Media SA162
Kindlmann, Pavel, Kull, Tiiu, and Whigham, Dennis, editors. 2023. Challenges and Opportunities in Orchid Ecology and Conservation. Frontiers Media SA. https://doi.org/10.3389/978-2-8325-2853-2.
Hybridization in the Fringed Orchids: An Analysis of Species Boundaries in the Face of Gene FlowDOI: info:10.3390/d15030384v. 15No. 3384
Evans, Simone A., Whigham, Dennis F., Hartvig, Ida, and McCormick, Melissa K. 2023. "Hybridization in the Fringed Orchids: An Analysis of Species Boundaries in the Face of Gene Flow." Diversity, 15, (3) 384. https://doi.org/10.3390/d15030384.
Editorial: Challenges and opportunities in orchid ecology and conservationDOI: info:10.3389/fevo.2023.1226614v. 11
Kindlmann, Pavel, Kull, Tiiu, and Whigham, Dennis. 2023. "Editorial: Challenges and opportunities in orchid ecology and conservation." Frontiers in Ecology and Evolution, 11. https://doi.org/10.3389/fevo.2023.1226614.
Reproductive Responses to Increased Shoot Density and Global Change Drivers in a Widespread Clonal Wetland Species,DOI: info:10.1007/s12237-023-01249-zSPRINGER
Kudoh, Aoi, Megonigal, J. Patrick, Langley, J. Adam, Noyce, Genevieve L., Sakai, Toshiyuki, and Whigham, Dennis F. 2023. "Reproductive Responses to Increased Shoot Density and Global Change Drivers in a Widespread Clonal Wetland Species, Schoenoplectus americanus." Estuaries and Coasts, https://doi.org/10.1007/s12237-023-01249-z.
Landscape and site factors drive invasive management and native plant recovery across Chesapeake Bay wetlandsDOI: info:10.1002/ecs2.4392v. 14No. 1
Rohal, Christine B., Hazelton, Eric L. G., McFarland, Eliza K., Downard, Rebekah, McCormick, Melissa K., Whigham, Dennis F., and Kettenring, Karin M. 2023. "Landscape and site factors drive invasive Phragmites management and native plant recovery across Chesapeake Bay wetlands." Ecosphere, 14, (1). https://doi.org/10.1002/ecs2.4392.
Shade and drought increase fungal contribution to partially mycoheterotrophic terrestrial orchids Goodyera pubescens and Tipularia discolorDOI: info:10.3389/fevo.2022.1047267v. 10
McCormick, Melissa K., Good, Kerry L., Mozdzer, Thomas J., and Whigham, Dennis F. 2022. "Shade and drought increase fungal contribution to partially mycoheterotrophic terrestrial orchids Goodyera pubescens and Tipularia discolor." Frontiers in Ecology and Evolution, 10. https://doi.org/10.3389/fevo.2022.1047267.
Choosing a Favorable Substrate to Cultivate Native Orchids Symbiotically: Examples Using Goodyera tesselata and Platanthera blephariglottisDOI: info:10.21273/HORTSCI16509-22v. 57No. 5American Society for Horticultural Science634–642
Zale, Peter J., McCormick, Melissa K., and Whigham, Dennis F. 2022. "Choosing a Favorable Substrate to Cultivate Native Orchids Symbiotically: Examples Using Goodyera tesselata and Platanthera blephariglottis." HortScience, 57, (5) 634–642. https://doi.org/10.21273/HORTSCI16509-22.
Preserving the Orchids of Palauv. 130No. 133724–29
Crain, Benjamin J., McCormick, Melissa, Zettler, Lawrence W., McGuinness, Julianne, and Whigham, Dennis. 2022. "Preserving the Orchids of Palau." The Orchid Review, 130, (1337) 24–29.
Shade and drought increase fungal contribution to partially mycoheterotrophic terrestrial orchids Goodyera pubescens and Tipularia discolorDOI: info:10.3389/fevo.2022.1047267v. 10
McCormick, Melissa K., Good, Kerry L., Mozdzer, Thomas J., and Whigham, Dennis F. 2022. "Shade and drought increase fungal contribution to partially mycoheterotrophic terrestrial orchids Goodyera pubescens and Tipularia discolor." Frontiers in Ecology and Evolution, 10. https://doi.org/10.3389/fevo.2022.1047267.
Interspecific Competition is Prevalent and Stabilizes Plant Production in a Brackish Marsh Facing Sea Level RiseDOI: info:10.1007/s12237-021-01043-9Springer
Gabriel, Jared R., Reid, Jessica, Wang, Le, Mozdzer, Thomas J., Whigham, Dennis F., Megonigal, J. Patrick, and Langley, J. Adam. 2022. "Interspecific Competition is Prevalent and Stabilizes Plant Production in a Brackish Marsh Facing Sea Level Rise." Estuaries and Coasts, https://doi.org/10.1007/s12237-021-01043-9.
Linking landscape attributes to salmon and decision-making in the southern Kenai Lowlands, Alaska, USADOI: info:10.5751/ES-11798-260101v. 26No. 1Resilience Alliance
Walker, Coowe M., Whigham, Dennis F., Bentz, I. Syverine, Argueta, Jacob M., King, Ryan S., Rains, Mark C., Simenstad, Charles A., Guo, Chris, Baird, Steven J., and Field, Conrad J. 2021. "Linking landscape attributes to salmon and decision-making in the southern Kenai Lowlands, Alaska, USA." Ecology and Society, 26, (1). https://doi.org/10.5751/ES-11798-260101.
Protocorm-Supporting Fungi Are Retained in Roots of Mature Tipularia discolor Orchids as Mycorrhizal Fungal Diversity IncreasesDOI: info:10.3390/plants10061251v. 10No. 6MDPI
McCormick, Melissa, Burnett, Robert, and Whigham, Dennis. 2021. "Protocorm-Supporting Fungi Are Retained in Roots of Mature Tipularia discolor Orchids as Mycorrhizal Fungal Diversity Increases." Plants-Basel, 10, (6). https://doi.org/10.3390/plants10061251.
Isotria medeoloides, a North American Threatened Orchid: Fungal Abundance May Be as Important as Light in Species ManagementDOI: info:10.3390/plants10091924v. 10No. 9MDPI
Whigham, Dennis, McCormick, Melissa, Brooks, Hope, Josey, Brian, Floyd, Robert, and Applegate, Jason. 2021. "Isotria medeoloides, a North American Threatened Orchid: Fungal Abundance May Be as Important as Light in Species Management." Plants-Basel, 10, (9). https://doi.org/10.3390/plants10091924.
Restoring Natural Processes and Communities in Highly Urbanized and Altered Landscapes: Making a Startv. 39No. 4University of Wisconsin Press297–298
Whigham, Dennis. 2021. "Restoring Natural Processes and Communities in Highly Urbanized and Altered Landscapes: Making a Start." Ecological Restoration, 39, (4) 297–298.
MarineGEO Salt Marsh Habitat Monitoring ProtocolDOI: info:10.25573/SERC.14896194.V1
Olson, Jack, Whigham, Dennis F., Megonigal, J. Patrick, Ogburn, Matthew B., Tennenbaum Marine Observatories Network, and MarineGEO. 2021. [Dataset] MarineGEO Salt Marsh Habitat Monitoring Protocol. https://doi.org/10.25573/SERC.14896194.V1.
Shoreline modification affects recruitment of invasive Phragmites australisDOI: info:10.1007/s11273-020-09757-6SPRINGER
McCormick, Melissa K., Whigham, Dennis F., Stapp, Jared R., Hazelton, Eric L. G., McFarland, Eliza K., and Kettenring, Karin M. 2020. "Shoreline modification affects recruitment of invasive Phragmites australis." Wetlands Ecology and Management, https://doi.org/10.1007/s11273-020-09757-6.
Low-level dissolved organic carbon subsidies drive a trophic upsurge in a boreal streamDOI: info:10.1111/fwb.13478v. 47No. 5Wiley1086–1105
Robbins, Caleb J., Yeager, Alyse D., Cook, Stephen C., Doyle, Robert D., Maurer, Jasmine R., Walker, Coowe M., Back, Jeffrey A., Whigham, Dennis F., and King, Ryan S. 2020. "Low-level dissolved organic carbon subsidies drive a trophic upsurge in a boreal stream." Freshwater Biology, 47, (5) 1086–1105. https://doi.org/10.1111/fwb.13478.
Dataset: 2015-2018 USA-MDA TMON Marsh Biomass SurveysDOI: info:10.25573/SERC.12636404.V1The Smithsonian Institution
Whigham, Dennis F., Holmquist, James R., Ogburn, Matthew B., Goodison, Michael R., McFarland, Eliza K., and Megonigal, J. Patrick. 2020. [Dataset] Dataset: 2015-2018 USA-MDA TMON Marsh Biomass Surveys. Distributed by The Smithsonian Institution. https://doi.org/10.25573/SERC.12636404.V1.
Correction to: Spatial and Temporal Variation in Brackish Wetland Seedbanks: Implications for Wetland Restoration Following Control (vol 41, pg S68, 2018)DOI: info:10.1007/s12237-018-00500-2v. 42No. 3Springer907
Hazelton, Eric L. G., Downard, Rebekah, Kettenring, Karin M., McCormick, Melissa K., and Whigham, Dennis F. 2019. "Correction to: Spatial and Temporal Variation in Brackish Wetland Seedbanks: Implications for Wetland Restoration Following Phragmites Control (vol 41, pg S68, 2018)." Estuaries and Coasts, 42, (3) 907. https://doi.org/10.1007/s12237-018-00500-2.
Evidence does not support the targeting of cryptic invaders at the subspecies level using classical biological control: the example of DOI: info:10.1007/s10530-019-02014-9Springer Nature1–13
Kiviat, Erik, Meyerson, Laura A., Mozdzer, Thomas J., Allen, Warwick J., Baldwin, Andrew H., Bhattarai, Ganesh P., Brix, Hans, Caplan, Joshua S., Kettenring, Karin M., Lambertini, Carla, Weis, Judith, Whigham, Dennis F., and Cronin, James T. 2019. "Evidence does not support the targeting of cryptic invaders at the subspecies level using classical biological control: the example of Phragmites." Biological Invasions, 1–13. https://doi.org/10.1007/s10530-019-02014-9.