129 citations as recorded by crossref.

1. Tissue humidity and pH as important species traits regulating tree methane emissions in floodplain wetland forests M. Moisan et al.
2. The influence of plants on atmospheric methane in an agriculture-dominated landscape X. Zhang et al.
3. Forests under climate change and air pollution: Gaps in understanding and future directions for research R. Matyssek et al.
4. Carbon source regulation of gene expression in Methylosinus trichosporium OB3b M. Farhan Ul Haque et al.
5. Tibetan meadows emit methane J. Qiu
6. Methane emissions from floodplains in the Amazon Basin: challenges in developing a process-based model for global applications B. Ringeval et al.
7. Appraisal of the Role of Gaseous Signaling Molecules in Thermo-Tolerance Mechanisms in Plants H. Gautam et al.
8. Exogenous ethylene increases methane emissions from canola by adversely affecting plant growth and physiological processes A. Martel & M. Qaderi
9. Soil-tree-atmosphere CH4 flux dynamics of boreal birch and spruce trees during spring leaf-out E. Vainio et al.
10. Plant-mediated CH4 exchange in wetlands: A review of mechanisms and measurement methods with implications for modelling M. Ge et al.
11. A simple rapid method to precisely determine 13C/12C ratios of plant methoxyl groups M. Greule et al.
12. Methane alleviates alfalfa cadmium toxicity via decreasing cadmium accumulation and reestablishing glutathione homeostasis Q. Gu et al.
13. Physical injury stimulates aerobic methane emissions from terrestrial plants Z. Wang et al.
14. The role of ultraviolet radiation, photosensitizers, reactive oxygen species and ester groups in mechanisms of methane formation from pectin D. MESSENGER et al.
15. Characterization of methane retrievals from the IASI space-borne sounder A. Razavi et al.
16. A novel source of atmospheric H2: abiotic degradation of organic material H. Lee et al.
17. Inverse modeling of global and regional CH4 emissions using SCIAMACHY satellite retrievals P. Bergamaschi et al.
18. Methane emissions may be driven by hydrogenotrophic methanogens inhabiting the stem tissues of poplar H. Feng et al.
19. Methane emission from stems of European beech (Fagus sylvatica) offsets as much as half of methane oxidation in soil K. Machacova et al.
20. Methane production and emissions in trees and forests K. Covey & J. Megonigal
21. No detectable aerobic methane efflux from plant material, nor from adsorption/desorption processes M. Kirschbaum & A. Walcroft
22. Emissions of H2 and CO from leaf litter of Sequoiadendron giganteum, and their dependence on UV radiation and temperature L. Derendorp et al.
23. Continuous-flow isotope ratio mass spectrometry method for carbon and hydrogen isotope measurements on atmospheric methane M. Brass & T. Röckmann
24. CO2, N2O and CH4 Emissions and C Storage in Eucalyptus Forests with Different Management Practices of Harvest Residues R. de Melo et al.
25. Long-term dynamics of soil, tree stem and ecosystem methane fluxes in a riparian forest Ü. Mander et al.
26. Terrestrial plant methane production and emission D. Bruhn et al.
27. A survey of photogeochemistry T. Doane
28. Methane exchange in a boreal forest estimated by gradient method E. Sundqvist et al.
29. The role of methane in plant physiology: a review L. Li et al.
30. Small methane emissions from pasture observed with eddy covariance and flux-gradient methods: are they real or artefacts? J. Laubach et al.
31. Methane flux of leaves in a tropical rainforest and a temperate conifer forest M. KAMAKURA et al.
32. Water drives the deuterium content of the methane emitted from plants I. Vigano et al.
33. Larix decidua and additional light affect the methane balance of forest soil and the abundance of methanogenic and methanotrophic microorganisms N. Praeg et al.
34. Methyl chloride and C2–C5 hydrocarbon emissions from dry leaf litter and their dependence on temperature L. Derendorp et al.
35. Methane emission by plant communities in an alpine meadow on the Qinghai-Tibetan Plateau: a new experimental study of alpine meadows and oat pasture S. Wang et al.
36. Smith, K.A., Ball, T., Conen, F., Dobbie, K.E., Massheder, J. & Rey, A. 2003. Exchange of greenhouse gases between soil and atmosphere: interactions of soil physical factors and biological processes. European Journal of Soil Science, 54, 779–791. K. Smith et al.
37. Greenhouse-gas budgets for irrigated dairy pasture and a winter-forage kale crop J. Laubach & J. Hunt
38. Methane control of cadmium tolerance in alfalfa roots requires hydrogen sulfide X. Yang et al.
39. Leaf surface wax is a source of plant methane formation under UV radiation and in the presence of oxygen D. Bruhn et al.
40. Longitudinal Gradients in Tree Stem Greenhouse Gas Concentrations Across Six Pacific Northwest Coastal Forests N. Ward et al.
41. Atmospheric composition change: Ecosystems–Atmosphere interactions D. Fowler et al.
42. Shedding light on plant litter decomposition: advances, implications and new directions in understanding the role of photodegradation J. King et al.
43. Technical Note: Methionine, a precursor of methane in living plants K. Lenhart et al.
44. How tree traits modulate tree methane fluxes: A review M. Moisan et al.
45. UV-induced N2O emission from plants D. Bruhn et al.
46. Pinus sylvestris as a missing source of nitrous oxide and methane in boreal forest K. Machacova et al.
47. Simultaneous Abiotic Production of Greenhouse Gases (CO2, CH4, and N2O) in Subtropical Soils J. Liu et al.
48. Methane, ethane, and propane production in Greenland ice core samples and a first isotopic characterization of excess methane M. Mühl et al.
49. Impact of vegetation on the methane budget of a temperate forest C. Plain et al.
50. Plant gasotransmitters: light molecules interplaying with heavy metals P. Fang et al.
51. Global methane emission estimates from ultraviolet irradiation of terrestrial plant foliage A. Bloom et al.
52. From biota to chemistry and climate: towards a comprehensive description of trace gas exchange between the biosphere and atmosphere A. Arneth et al.
53. Phytomelatonin and gasotransmitters: a crucial combination for plant physiological functions Y. Wang et al.
54. Elevated UV-B radiation increased CH4 emission in transgenic rice from a paddy soil Y. Lou et al.
55. Nutrition of mangroves R. Reef et al.
56. Comprehensive evaluation of the climate-change implications of shifting land use between forest and grassland: New Zealand as a case study M. Kirschbaum et al.
57. The potential of vegetation indices: estimating methane emissions in paddy fields under nighttime warming and water saving conditions Z. Zhen et al.
58. An accounting of C‐based trace gas release during abiotic plant litter degradation H. Lee et al.
59. Tree stem-atmosphere greenhouse gas fluxes in a boreal riparian forest M. Klaus et al.
60. Non-microbial methane emissions from soils B. Wang et al.
61. Nonmicrobial aerobic methane emission from poplar shoot cultures under low‐light conditions N. Brüggemann et al.
62. Automated closed-chamber measurements of methane fluxes from intact leaves and trunk of Japanese cypress K. Takahashi et al.
63. Ultraviolet Radiation Drives Emission of Climate‐Relevant Gases From Marine Phytoplankton A. McLeod et al.
64. Simultaneous stable isotope analysis of methane and nitrous oxide on ice core samples C. Sapart et al.
65. Individual and interactive effects of temperature and blue light on canola growth, lignin biosynthesis and methane emissions B. Dauphinee & M. Qaderi
66. Reactive oxygen species in aerobic methane formation from vegetation D. Messenger et al.
67. Interspecific Variation in Methane Emissions Under Wind Exposure from Two Cultivated Species of Brassicaceae E. Daigle & M. Qaderi
68. Abiotic stresses and induced BVOCs F. Loreto & J. Schnitzler
69. Ultraviolet radiation drives methane emissions from terrestrial plant pectins A. McLeod et al.
70. Upscaling of methane exchange in a boreal forest using soil chamber measurements and high-resolution LiDAR elevation data E. Sundqvist et al.
71. Non-microbial methane emissions from fresh leaves: Effects of physical wounding and anoxia Z. Wang et al.
72. Measures of prehistoric terrestrial net ecosystem productivity and carbon sink function C. Mays et al.
73. Solar radiation drives methane emissions from the shoots of Scots pine S. Tenhovirta et al.
74. Aboveground living plant-based methane production does not dominate methane emissions in terrestrial ecosystems Z. Wang et al.
75. Environmental effects of ozone depletion and its interactions with climate change: progress report, 2009
76. High-precision measurements of the methane flux over a larch forest based on a hyperbolic relaxed eddy accumulation method using a laser spectrometer M. Ueyama et al.
77. Morphological constraints on plant‐mediated methane release and oxidation under experimental warming in a peatland and meadow on the Qinghai‐Tibetan Plateau M. Ge et al.
78. Ultraviolet-radiation-induced methane emissions from meteorites and the Martian atmosphere F. Keppler et al.
79. Spatiotemporal patterns and drivers of stem methane flux from two poplar forests with different soil textures M. Han et al.
80. Study fails to catch plants making methane Q. Schiermeier
81. Aerobic methane production in Scots pine shoots is independent of drought or photosynthesis S. Tenhovirta et al.
82. New insight to the role of microbes in the methane exchange in trees: evidence from metagenomic sequencing A. Putkinen et al.
83. Non-microbial methane formation in oxic soils A. Jugold et al.
84. Enhanced formation of methane in plant cell cultures by inhibition of cytochrome c oxidase A. WISHKERMAN et al.
85. Methane flux, vertical gradient and mixing ratio measurements in a tropical forest C. Querino et al.
86. Effect of plants on processes of methane cycle in bottom deposits and soil rhizosphere D. Gar’kusha & Y. Fedorov
87. Widespread production of nonmicrobial greenhouse gases in soils B. Wang et al.
88. Individual and interactive effects of temperature and light intensity on canola growth, physiological characteristics and methane emissions A. Martel et al.
89. Widespread non-microbial methane production by organic compounds and the impact of environmental stresses Z. Wang et al.
90. Inundation strongly stimulates nitrous oxide emissions from stems of the upland tree Fagus sylvatica and the riparian tree Alnus glutinosa K. Machacova et al.
91. The role of methane in mammalian physiology—is it a gasotransmitter? M. Boros et al.
92. Insights into the subdaily variations in methane, nitrous oxide and carbon dioxide fluxes from upland tropical tree stems L. Bréchet et al.
93. Multiple sources of aerobic methane production in aquatic ecosystems include bacterial photosynthesis E. Perez-Coronel & J. Michael Beman
94. Determination of endogenous methane formation by photoacoustic spectroscopy E. Tuboly et al.
95. Abiotic methanogenesis from organosulphur compounds under ambient conditions F. Althoff et al.
96. Mitochondria As Sources and Targets of Methane A. Mészáros et al.
97. Inter- and intra-varietal variation in aerobic methane emissions from environmentally stressed pea plants A. Abdulmajeed et al.
98. Methane formation by oxidation of ascorbic acid using iron minerals and hydrogen peroxide F. Althoff et al.
99. UV-induced emissions of C2–C5 hydrocarbons from leaf litter L. Derendorp et al.
100. Above- and belowground fluxes of methane from boreal dwarf shrubs and Pinus sylvestris seedlings E. Halmeenmäki et al.
101. Aerobic and Anaerobic Nonmicrobial Methane Emissions from Plant Material Z. Wang et al.
102. Dark aerobic methane emission associated to leaf factors of two Acacia and five Eucalyptus species M. Watanabe et al.
103. The role of photo- and thermal degradation for CO2 and CO fluxes in an arid ecosystem H. van Asperen et al.
104. A review of plants formaldehyde metabolism: Implications for hazardous emissions and phytoremediation W. Peng et al.
105. Environmental effects of ozone depletion, UV radiation and interactions with climate change: UNEP Environmental Effects Assessment Panel, update 2017 A. Bais et al.
106. Thermal abiotic emission of CO2 and CH4 from leaf litter and its significance in a photodegradation assessment T. Day et al.
107. Fungal Methane Production Controlled by Oxygen Levels and Temperature M. Schroll et al.
108. The global methane cycle: recent advances in understanding the microbial processes involved R. Conrad
109. Eddy covariance methane measurements at a Ponderosa pine plantation in California C. Smeets et al.
110. Emission of methane, carbon monoxide, carbon dioxide and short‐chain hydrocarbons from vegetation foliage under ultraviolet irradiation W. FRASER et al.
111. Statistical analysis of anthropogenic non-methane VOC variability at a European background location (Jungfraujoch, Switzerland) V. Lanz et al.
112. Methane emissions from reproductive organs of pea plants exposed to multiple abiotic factors A. Abdulmajeed & M. Qaderi
113. Methane fluxes from tree stems and soils along a habitat gradient S. Pitz et al.
114. Springtime soil and tree stem greenhouse gas fluxes and the related soil microbiome pattern in a drained peatland forest R. Ranniku et al.
115. Environmental and biological controls on CH 4 exchange over an evergreen Mediterranean forest F. Savi et al.
116. Silicate application decreased methane emission from paddy soil under elevated UV‐B radiation L. Yunsheng et al.
117. Radical-Driven Methane Formation in Humans Evidenced by Exogenous Isotope-Labeled DMSO and Methionine F. Keppler et al.
118. Photochemical Soil Methane Emission T. Doane & R. Ye
119. A novel pathway of direct methane production and emission by eukaryotes including plants, animals and fungi: An overview J. Liu et al.
120. Solar Photochemical Emission of CO2 From Leaf Litter: Sources and Significance to C Loss T. Day & M. Bliss
121. Soil, plant, and transport influences on methane in a subalpine forest under high ultraviolet irradiance D. Bowling et al.
122. A multi-year methane inversion using SCIAMACHY, accounting for systematic errors using TCCON measurements S. Houweling et al.
123. Differential effects of environmental stressors on physiological processes and methane emissions in pea (Pisum sativum) plants at various growth stages A. Abdulmajeed & M. Qaderi
124. Intrashoot variation in aerobic methane emissions from pea plants exposed to multiple abiotic stresses A. Abdulmajeed & M. Qaderi
125. Environmental effects of ozone depletion and its interactions with climate change: Progress report, 2008
126. Novel Chemical Routes for Carbon Dioxide and Methane Production from Lignin Photodegradation: The Role of Environmental Free Radicals Y. Deng et al.
127. Effects of solar ultraviolet radiation on terrestrial ecosystems. Patterns, mechanisms, and interactions with climate change C. Ballaré et al.
128. Release of methane from aerobic soil: An indication of a novel chemical natural process? M. Hurkuck et al.
129. Non-microbial methane emissions from tropical rainforest soils under different conditions G. Jia et al.