Melaleuca forests in Australia have globally significant carbon stocks

•Carbon stocks of Melaleuca forest types ranged between 210 and 381tha−1 of carbon.•There could be from 350 to 509Mt carbon stored in the nationwide.•Litter’s carbon stock of inundated Melaleuca was much higher than those not inundated.•Fires significantly affected the carbon stock of Melaleuca ecos...

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Published in	Forest ecology and management Vol. 375; pp. 230 - 237
Main Authors	Tran, Da B., Dargusch, Paul
Format	Journal Article
Language	English
Published	Elsevier B.V 01.09.2016
Subjects	aboveground biomass Australia Carbon carbon sequestration carbon sinks climate change Conservation data collection Ecosystem ecosystems emissions farming systems forests Inundation Melaleuca roots soil Wetland Wildfire Australia Wildfire Carbon Wetland Ecosystem Inundation Conservation
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Abstract	•Carbon stocks of Melaleuca forest types ranged between 210 and 381tha−1 of carbon.•There could be from 350 to 509Mt carbon stored in the nationwide.•Litter’s carbon stock of inundated Melaleuca was much higher than those not inundated.•Fires significantly affected the carbon stock of Melaleuca ecosystem. Melaleuca forest is one of the unique ecosystems in Australia which plays an important role to provide carbon storage helping mitigation to the global climate change, thus understanding how much carbon can be stored in the types of forests is necessary. In this study, data was collected and analyzed from four typical sorts of Melaleuca forests in Australia including: primary Melaleuca forests subject to continuous water inundation; primary Melaleuca forests not inundated by water; degraded Melaleuca forests subject to continuous water inundation; and regenerating Melaleuca forests subject to continuous water inundation. The carbon stocks of these typical Melaleuca forests were 381; 278; 210; and 241tha−1 of carbon, respectively. Averagely, carbon stocks were 169 (±26)tha−1 of carbon in the above-ground biomass and 104 (±16)tha−1 of carbon in soil and roots. The results provide important information for the future sustainable management of Melaleuca forests at both the national and regional scales, particularly in regards to forest carbon conservation and carbon farming initiatives. The results establish that Melaleuca forests in Australia hold globally significant stores of carbon which are likely to be much higher than previously estimated and used in national emissions reporting.
AbstractList	Melaleuca forest is one of the unique ecosystems in Australia which plays an important role to provide carbon storage helping mitigation to the global climate change, thus understanding how much carbon can be stored in the types of forests is necessary. In this study, data was collected and analyzed from four typical sorts of Melaleuca forests in Australia including: primary Melaleuca forests subject to continuous water inundation; primary Melaleuca forests not inundated by water; degraded Melaleuca forests subject to continuous water inundation; and regenerating Melaleuca forests subject to continuous water inundation. The carbon stocks of these typical Melaleuca forests were 381; 278; 210; and 241tha-1 of carbon, respectively. Averagely, carbon stocks were 169 ( plus or minus 26)tha-1 of carbon in the above-ground biomass and 104 ( plus or minus 16)tha-1 of carbon in soil and roots. The results provide important information for the future sustainable management of Melaleuca forests at both the national and regional scales, particularly in regards to forest carbon conservation and carbon farming initiatives. The results establish that Melaleuca forests in Australia hold globally significant stores of carbon which are likely to be much higher than previously estimated and used in national emissions reporting. •Carbon stocks of Melaleuca forest types ranged between 210 and 381tha−1 of carbon.•There could be from 350 to 509Mt carbon stored in the nationwide.•Litter’s carbon stock of inundated Melaleuca was much higher than those not inundated.•Fires significantly affected the carbon stock of Melaleuca ecosystem. Melaleuca forest is one of the unique ecosystems in Australia which plays an important role to provide carbon storage helping mitigation to the global climate change, thus understanding how much carbon can be stored in the types of forests is necessary. In this study, data was collected and analyzed from four typical sorts of Melaleuca forests in Australia including: primary Melaleuca forests subject to continuous water inundation; primary Melaleuca forests not inundated by water; degraded Melaleuca forests subject to continuous water inundation; and regenerating Melaleuca forests subject to continuous water inundation. The carbon stocks of these typical Melaleuca forests were 381; 278; 210; and 241tha−1 of carbon, respectively. Averagely, carbon stocks were 169 (±26)tha−1 of carbon in the above-ground biomass and 104 (±16)tha−1 of carbon in soil and roots. The results provide important information for the future sustainable management of Melaleuca forests at both the national and regional scales, particularly in regards to forest carbon conservation and carbon farming initiatives. The results establish that Melaleuca forests in Australia hold globally significant stores of carbon which are likely to be much higher than previously estimated and used in national emissions reporting. Melaleuca forest is one of the unique ecosystems in Australia which plays an important role to provide carbon storage helping mitigation to the global climate change, thus understanding how much carbon can be stored in the types of forests is necessary. In this study, data was collected and analyzed from four typical sorts of Melaleuca forests in Australia including: primary Melaleuca forests subject to continuous water inundation; primary Melaleuca forests not inundated by water; degraded Melaleuca forests subject to continuous water inundation; and regenerating Melaleuca forests subject to continuous water inundation. The carbon stocks of these typical Melaleuca forests were 381; 278; 210; and 241tha−1 of carbon, respectively. Averagely, carbon stocks were 169 (±26)tha−1 of carbon in the above-ground biomass and 104 (±16)tha−1 of carbon in soil and roots. The results provide important information for the future sustainable management of Melaleuca forests at both the national and regional scales, particularly in regards to forest carbon conservation and carbon farming initiatives. The results establish that Melaleuca forests in Australia hold globally significant stores of carbon which are likely to be much higher than previously estimated and used in national emissions reporting.
Author	Tran, Da B. Dargusch, Paul
Author_xml	– sequence: 1 givenname: Da B. orcidid: 0000-0002-4128-2855 surname: Tran fullname: Tran, Da B. email: tranbinhda@gmail.com organization: The Vietnam National University of Forestry, Hanoi, Viet Nam – sequence: 2 givenname: Paul surname: Dargusch fullname: Dargusch, Paul email: p.dargusch@uq.edu.au organization: School of Geography, Planning and Environmental Management, The University of Queensland Australia, Brisbane, QLD 4072, Australia
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Snippet	•Carbon stocks of Melaleuca forest types ranged between 210 and 381tha−1 of carbon.•There could be from 350 to 509Mt carbon stored in the nationwide.•Litter’s... Melaleuca forest is one of the unique ecosystems in Australia which plays an important role to provide carbon storage helping mitigation to the global climate...
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SubjectTerms	aboveground biomass Australia Carbon carbon sequestration carbon sinks climate change Conservation data collection Ecosystem ecosystems emissions farming systems forests Inundation Melaleuca roots soil Wetland Wildfire
Title	Melaleuca forests in Australia have globally significant carbon stocks
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