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Tytuł:
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A multiplexed gas exchange system for increased throughput of photosynthetic capacity measurements.
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Autorzy:
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Salter WT; 1School of Life and Environmental Sciences, Sydney Institute of Agriculture, The University of Sydney, Sydney, NSW Australia.
Gilbert ME; 2Department of Plant Sciences, University of California, Davis, Davis, CA 95616 USA.
Buckley TN; 2Department of Plant Sciences, University of California, Davis, Davis, CA 95616 USA.
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Źródło:
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Plant methods [Plant Methods] 2018 Sep 11; Vol. 14, pp. 80. Date of Electronic Publication: 2018 Sep 11 (Print Publication: 2018).
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Typ publikacji:
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Journal Article
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Język:
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English
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Imprint Name(s):
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Original Publication: [London] : BioMed Central, c2005-
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References:
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Contributed Indexing:
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Keywords: Amax; Gas-exchange; High-throughput; Phenotyping; Photosynthesis; Photosynthetic capacity
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Entry Date(s):
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Date Created: 20180915 Latest Revision: 20230928
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Update Code:
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20240104
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PubMed Central ID:
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PMC6131801
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DOI:
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10.1186/s13007-018-0347-y
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PMID:
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30214467
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Background: Existing methods for directly measuring photosynthetic capacity ( A max ) have low throughput, which creates a key bottleneck for pre-breeding and ecological research. Currently available commercial leaf gas exchange systems are not designed to maximize throughput, on either a cost or time basis.
Results: We present a novel multiplexed semi-portable gas exchange system, OCTOflux, that can measure A max with approximately 4-7 times the throughput of commercial devices, despite a lower capital cost. The main time efficiency arises from having eight leaves simultaneously acclimate to saturating CO 2 and high light levels; the long acclimation periods for each leaf (13.8 min on average in this study) thus overlap to a large degree, rather than occurring sequentially. The cost efficiency arises partly from custom-building the system and thus avoiding commercial costs like distribution, marketing and profit, and partly from optimizing the system's design for A max throughput rather than flexibility for other types of measurements.
Conclusion: Throughput for A max measurements can be increased greatly, on both a cost and time basis, by multiplexing gas streams from several leaf chambers connected to a single gas analyzer. This can help overcome the bottleneck in breeding and ecological research posed by limited phenotyping throughput for A max .
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