Brackish Water Rewetting Enables Resilient Methane Suppression across Coastal Peatland Land Uses. [PDF]
Environ Sci TechnolGuo H, Cui S, Pugliese L, Wu S.
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Shrub encroachment alters microbial community composition and soil carbon and nitrogen cycling functional genes in northern peatlands. [PDF]
Microbiol SpectrAo J, Tang X, Li Z, Tang Z.
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Afforestation-Related Fertilisation Quickly Turns Barren Cutaway Peatland Into a Carbon Dioxide Sink. [PDF]
Glob Chang BiolBuzacott AJV +9 more
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Recent Changes in the Use of Phototrophy by a Mixotrophic Testate Amoeba Inferred from δ<sup>13</sup>C Measurements from an Arctic Peat Core. [PDF]
Microb EcolStansfield AR +3 more
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Reducing Greenhouse Gas Emissions from Lowland Peat Agriculture: A Rapid Evidence Synthesis
Treby S +5 more
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Tropical peatland restoration evaluation using time-series L-band InSAR analysis. [PDF]
Sci RepZahro Q +7 more
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Microbial responses to changing plant community protect peatland carbon stores during Holocene drying. [PDF]
Nat CommunZhang Y +11 more
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The "Iron Gate" Outcompetes the "Enzymic Latch" as the Dominant Soil Organic Carbon Stabilization Mechanism in Permafrost Peatlands of the Great Hing'an Mountains. [PDF]
Biology (Basel)Kan S +6 more
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Warming of northern peatlands increases the global temperature overshoot challenge.
One EarthZhu B +28 more
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Beyond carbon sequestration: The critical oversight of emission avoidance in restoration of wetland ecosystems. [PDF]
Environ Sci EcotechnolWu S +11 more
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