1 to 10 of 17 Results
Oct 24, 2019
Klintzsch, Thomas; Keppler, Frank, 2019, "Methane production by three widespread marine phytoplankton species: release rates, precursor compounds, and potential relevance for the environment [Dataset]", https://doi.org/10.11588/data/9N1LSR, heiDATA, V1, UNF:6:dxf+QSeRKu9v6uPyAUhX8Q== [fileUNF]
We investigated marine algae as a source of methane (CH4) in oxic surface waters of oceans. The widespread haptophytes Emiliania huxleyi, Phaeocystis globosa and Chrysochromulina sp. were investigated. We performed CH4 production and stable carbon isotope measurements and provide... |
Tabular Data - 4.7 KB - 18 Variables, 35 Observations - UNF:6:dxf+QSeRKu9v6uPyAUhX8Q==
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Jun 26, 2020
Schroll, Moritz; Keppler, Frank; Greule, Markus; Eckhardt, Christian; Zorn, Holger; Lenhart, Katharina, 2020, "The stable carbon isotope signature of methane produced by saprotrophic fungi [Dataset]", https://doi.org/10.11588/data/DQYPMC, heiDATA, V1, UNF:6:2wuTVqMthe55Z6quzuhvRQ== [fileUNF]
Fungi have recently been identified to produce the greenhouse gas methane. Here, we investigated the stable carbon isotope values of methane produced by saprotrophic fungi. Our results show that stable isotope values of methane by fungi are dependent on the fungal species and the... |
Jun 26, 2020 -
The stable carbon isotope signature of methane produced by saprotrophic fungi [Dataset]
Tabular Data - 8.4 KB - 19 Variables, 53 Observations - UNF:6:2wuTVqMthe55Z6quzuhvRQ==
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Aug 20, 2020
Klintzsch, Thomas; Keppler, Frank, 2020, "Effects of temperature and light on methane production of widespread marine Phytoplankton [Dataset]", https://doi.org/10.11588/data/AGKWSG, heiDATA, V1, UNF:6:4gqE/aagNenh7Fz17ii/eg== [fileUNF]
In the present study we investigated the effects of temperature and light intensity (including daylength) on CH4 formation from three widespread marine algal species Emiliania huxleyi, Phaeocystis globosa and Chrysochromulina sp.. Rates of E. huxleyi increased by 210 % when tempe... |
Aug 20, 2020 -
Effects of temperature and light on methane production of widespread marine Phytoplankton [Dataset]
Tabular Data - 1.1 KB - 19 Variables, 9 Observations - UNF:6:4gqE/aagNenh7Fz17ii/eg==
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Apr 5, 2022
Schroll, Moritz, 2022, "Methane cycling in a eutrophic lake characterised by multiple stable isotope and flux measurements [data]", https://doi.org/10.11588/data/MU3CON, heiDATA, V1, UNF:6:uMXNN9yPRjWKSRIzJA3uuA== [fileUNF]
Recent estimations demonstrate that methane (CH4) emissions from aquatic systems are responsible for up to half of global CH4 emissions. Lakes represent one of the largest CH4 sources, and emissions are predicted to increase due to global warming. However, there is a large uncert... |
Apr 5, 2022 -
Methane cycling in a eutrophic lake characterised by multiple stable isotope and flux measurements [data]
Tabular Data - 84.8 KB - 15 Variables, 379 Observations - UNF:6:V3xQy3ulz5KZBQ+/jzy3Rg==
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Apr 5, 2022 -
Methane cycling in a eutrophic lake characterised by multiple stable isotope and flux measurements [data]
Tabular Data - 52.3 KB - 19 Variables, 204 Observations - UNF:6:a+tpWZO6JojRJeO4t90Bfg==
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Apr 25, 2022
Schroll, Moritz; Lenhart, Katharina; Greiner, Steffen; Keppler, Frank, 2022, "Making plant methane formation visible – insights from application of 13C-labelled dimethyl sulfoxide [Research Data]", https://doi.org/10.11588/data/VJFIBD, heiDATA, V1, UNF:6:1Pzn25XuesxTt+Ygdeo4vg== [fileUNF]
Methane (CH4) formation by vegetation has been studied intensively over the last 15 years. However, reported CH4 emissions vary by several orders of magnitude, thus making global estimates difficult. Moreover, the mechanism(s) for CH4 formation by plants is (are) largely unknown.... |