Plant hydraulics as a central hub integrating plant and ecosystem function: meeting report for ‘Emerging Frontiers in Plant Hydraulics’ (Washington, DC, May 2015)
Water plays a central role in plant biology and the efficiency of water transport throughout the plant affects both photosynthetic rate and growth, an influence that scales up deterministically to the productivity of terrestrial ecosystems. Moreover, hydraulic traits mediate the ways in which plants...
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| Published in | Plant, cell and environment Vol. 39; no. 9; pp. 2085 - 2094 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Wiley Subscription Services, Inc
01.09.2016
Wiley |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0140-7791 1365-3040 |
| DOI | 10.1111/pce.12732 |
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| Abstract | Water plays a central role in plant biology and the efficiency of water transport throughout the plant affects both photosynthetic rate and growth, an influence that scales up deterministically to the productivity of terrestrial ecosystems. Moreover, hydraulic traits mediate the ways in which plants interact with their abiotic and biotic environment. At landscape to global scale, plant hydraulic traits are important in describing the function of ecological communities and ecosystems. Plant hydraulics is increasingly recognized as a central hub within a network by which plant biology is connected to palaeobiology, agronomy, climatology, forestry, community and ecosystem ecology and earth‐system science. Such grand challenges as anticipating and mitigating the impacts of climate change, and improving the security and sustainability of our food supply rely on our fundamental knowledge of how water behaves in the cells, tissues, organs, bodies and diverse communities of plants. A workshop, ‘Emerging Frontiers in Plant Hydraulics’ supported by the National Science Foundation, was held in Washington DC, 2015 to promote open discussion of new ideas, controversies regarding measurements and analyses, and especially, the potential for expansion of up‐scaled and down‐scaled inter‐disciplinary research, and the strengthening of connections between plant hydraulic research, allied fields and global modelling efforts.
Plant hydraulics is increasingly recognized as a central hub relating fields within plant biology, ecology, evolution, palaeobiology and agriculture, essential to grand challenges such as anticipating and mitigating the impacts of climate change, and improving the security and sustainability of our food supply. A workshop entitled ‘Emerging Frontiers in Plant Hydraulics’ supported by the National Science Foundation, was held in Washington DC, 2015. We summarize the discussions, including controversies regarding measurements and analyses, the emerging frontiers of up‐scaled and down‐scaled inter‐disciplinary research, and the strengthening of connections between research in plant hydraulics, that in allied fields and global modelling efforts. |
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| AbstractList | Water plays a central role in plant biology and the efficiency of water transport throughout the plant affects both photosynthetic rate and growth, an influence that scales up deterministically to the productivity of terrestrial ecosystems. Moreover, hydraulic traits mediate the ways in which plants interact with their abiotic and biotic environment. At landscape to global scale, plant hydraulic traits are important in describing the function of ecological communities and ecosystems. Plant hydraulics is increasingly recognized as a central hub within a network by which plant biology is connected to palaeobiology, agronomy, climatology, forestry, community and ecosystem ecology and earth-system science. Such grand challenges as anticipating and mitigating the impacts of climate change, and improving the security and sustainability of our food supply rely on our fundamental knowledge of how water behaves in the cells, tissues, organs, bodies and diverse communities of plants. A workshop, 'Emerging Frontiers in Plant Hydraulics' supported by the National Science Foundation, was held in Washington DC, 2015 to promote open discussion of new ideas, controversies regarding measurements and analyses, and especially, the potential for expansion of up-scaled and down-scaled inter-disciplinary research, and the strengthening of connections between plant hydraulic research, allied fields and global modelling efforts. Water plays a central role in plant biology and the efficiency of water transport throughout the plant affects both photosynthetic rate and growth, an influence that scales up deterministically to the productivity of terrestrial ecosystems. Moreover, hydraulic traits mediate the ways in which plants interact with their abiotic and biotic environment. At landscape to global scale, plant hydraulic traits are important in describing the function of ecological communities and ecosystems. Plant hydraulics is increasingly recognized as a central hub within a network by which plant biology is connected to palaeobiology, agronomy, climatology, forestry, community and ecosystem ecology and earth-system science. Such grand challenges as anticipating and mitigating the impacts of climate change, and improving the security and sustainability of our food supply rely on our fundamental knowledge of how water behaves in the cells, tissues, organs, bodies and diverse communities of plants. A workshop, 'Emerging Frontiers in Plant Hydraulics' supported by the National Science Foundation, was held in Washington DC, 2015 to promote open discussion of new ideas, controversies regarding measurements and analyses, and especially, the potential for expansion of up-scaled and down-scaled inter-disciplinary research, and the strengthening of connections between plant hydraulic research, allied fields and global modelling efforts. Plant hydraulics is increasingly recognized as a central hub relating fields within plant biology, ecology, evolution, palaeobiology and agriculture, essential to grand challenges such as anticipating and mitigating the impacts of climate change, and improving the security and sustainability of our food supply. A workshop entitled 'Emerging Frontiers in Plant Hydraulics' supported by the National Science Foundation, was held in Washington DC, 2015. We summarize the discussions, including controversies regarding measurements and analyses, the emerging frontiers of up-scaled and down-scaled inter-disciplinary research, and the strengthening of connections between research in plant hydraulics, that in allied fields and global modelling efforts. Water plays a central role in plant biology and the efficiency of water transport throughout the plant affects both photosynthetic rate and growth, an influence that scales up deterministically to the productivity of terrestrial ecosystems. Moreover, hydraulic traits mediate the ways in which plants interact with their abiotic and biotic environment. At landscape to global scale, plant hydraulic traits are important in describing the function of ecological communities and ecosystems. Plant hydraulics is increasingly recognized as a central hub within a network by which plant biology is connected to palaeobiology, agronomy, climatology, forestry, community and ecosystem ecology and earth‐system science. Such grand challenges as anticipating and mitigating the impacts of climate change, and improving the security and sustainability of our food supply rely on our fundamental knowledge of how water behaves in the cells, tissues, organs, bodies and diverse communities of plants. A workshop, ‘Emerging Frontiers in Plant Hydraulics’ supported by the National Science Foundation, was held in Washington DC, 2015 to promote open discussion of new ideas, controversies regarding measurements and analyses, and especially, the potential for expansion of up‐scaled and down‐scaled inter‐disciplinary research, and the strengthening of connections between plant hydraulic research, allied fields and global modelling efforts. Plant hydraulics is increasingly recognized as a central hub relating fields within plant biology, ecology, evolution, palaeobiology and agriculture, essential to grand challenges such as anticipating and mitigating the impacts of climate change, and improving the security and sustainability of our food supply. A workshop entitled ‘Emerging Frontiers in Plant Hydraulics’ supported by the National Science Foundation, was held in Washington DC, 2015. We summarize the discussions, including controversies regarding measurements and analyses, the emerging frontiers of up‐scaled and down‐scaled inter‐disciplinary research, and the strengthening of connections between research in plant hydraulics, that in allied fields and global modelling efforts. |
| Author | Jacobsen, Anna L. Givnish, Thomas J. McCulloh, Katherine A. Scoffoni, Christine Davis, Stephen D. McElrone, Andrew Donovan, Lisa A. Sevanto, Sanna Hacke, Uwe G. Tyerman, Stephen D. Des Marais, David L. Sack, Lawren Brodersen, Craig Savage, Jessica A. Ball, Marilyn C. Johnson, Daniel M. Pellegrini, Matteo Pratt, R. Brandon Sala, Anna Santiago, Louis S. Huxman, Travis Melcher, Peter J. McDowell, Nate G. Way, Danielle Jansen, Steven Maurel, Christophe Koch, George W. North, Gretchen Pockman, William T. Holbrook, N. Michele Sperry, John Meinzer, Frederick C. |
| Author_xml | – sequence: 1 givenname: Lawren surname: Sack fullname: Sack, Lawren organization: University of California Los Angeles – sequence: 2 givenname: Marilyn C. surname: Ball fullname: Ball, Marilyn C. organization: Australian National University – sequence: 3 givenname: Craig surname: Brodersen fullname: Brodersen, Craig organization: Yale University – sequence: 4 givenname: Stephen D. surname: Davis fullname: Davis, Stephen D. organization: Pepperdine University – sequence: 5 givenname: David L. surname: Des Marais fullname: Des Marais, David L. organization: Harvard University – sequence: 6 givenname: Lisa A. surname: Donovan fullname: Donovan, Lisa A. organization: University of Georgia – sequence: 7 givenname: Thomas J. surname: Givnish fullname: Givnish, Thomas J. organization: University of Wisconsin Madison – sequence: 8 givenname: Uwe G. surname: Hacke fullname: Hacke, Uwe G. organization: University of Alberta – sequence: 9 givenname: Travis surname: Huxman fullname: Huxman, Travis organization: University of California – sequence: 10 givenname: Steven surname: Jansen fullname: Jansen, Steven organization: Institute of Systematic Botany and Ecology – sequence: 11 givenname: Anna L. surname: Jacobsen fullname: Jacobsen, Anna L. organization: California State University – sequence: 12 givenname: Daniel M. surname: Johnson fullname: Johnson, Daniel M. organization: University of Idaho – sequence: 13 givenname: George W. surname: Koch fullname: Koch, George W. organization: Northern Arizona University – sequence: 14 givenname: Christophe surname: Maurel fullname: Maurel, Christophe organization: UMR 5004, INRA‐CNRS‐Sup Agro‐Université de Montpellier – sequence: 15 givenname: Katherine A. surname: McCulloh fullname: McCulloh, Katherine A. organization: University of Wisconsin Madison – sequence: 16 givenname: Nate G. surname: McDowell fullname: McDowell, Nate G. organization: Los Alamos National Laboratory – sequence: 17 givenname: Andrew surname: McElrone fullname: McElrone, Andrew organization: USDA‐Agricultural Research Service – sequence: 18 givenname: Frederick C. surname: Meinzer fullname: Meinzer, Frederick C. organization: USDA Forest Service – sequence: 19 givenname: Peter J. surname: Melcher fullname: Melcher, Peter J. organization: Ithaca College – sequence: 20 givenname: Gretchen surname: North fullname: North, Gretchen organization: Occidental College – sequence: 21 givenname: Matteo surname: Pellegrini fullname: Pellegrini, Matteo organization: University of California Los Angeles – sequence: 22 givenname: William T. surname: Pockman fullname: Pockman, William T. organization: University of New Mexico – sequence: 23 givenname: R. Brandon surname: Pratt fullname: Pratt, R. Brandon organization: California State University – sequence: 24 givenname: Anna surname: Sala fullname: Sala, Anna organization: University of Montana – sequence: 25 givenname: Louis S. surname: Santiago fullname: Santiago, Louis S. organization: University of California – sequence: 26 givenname: Jessica A. orcidid: 0000-0002-7756-7166 surname: Savage fullname: Savage, Jessica A. organization: Harvard University – sequence: 27 givenname: Christine surname: Scoffoni fullname: Scoffoni, Christine organization: University of California Los Angeles – sequence: 28 givenname: Sanna surname: Sevanto fullname: Sevanto, Sanna organization: Los Alamos National Laboratory – sequence: 29 givenname: John surname: Sperry fullname: Sperry, John organization: University of Utah – sequence: 30 givenname: Stephen D. surname: Tyerman fullname: Tyerman, Stephen D. organization: The University of Adelaide – sequence: 31 givenname: Danielle surname: Way fullname: Way, Danielle organization: Western University – sequence: 32 givenname: N. Michele surname: Holbrook fullname: Holbrook, N. Michele organization: Harvard University |
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| SubjectTerms | Agronomy cavitation Climate change Climatology District of Columbia drought Ecological function Ecosystem embolism Environmental impact fluid mechanics food availability Food supply forestry genomics Hydraulics Interdisciplinary research landscapes Life Sciences phloem photosynthesis plant biology plant communities stomata Sustainability Terrestrial ecosystems tissues Trees - physiology vascular pathogens vascular transport Vegetal Biology Water - physiology Water Cycle Water transport xylem |
| Title | Plant hydraulics as a central hub integrating plant and ecosystem function: meeting report for ‘Emerging Frontiers in Plant Hydraulics’ (Washington, DC, May 2015) |
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