• LiDAR-based reference aboveground biomass maps for tropical forests of South Asia and Central Africa

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06/12/2024 by   

Metadata

Document Title

LiDAR-based reference aboveground biomass maps for tropical forests of South Asia and Central Africa

Author

Rodda S.R., Fararoda R., Gopalakrishnan R., Jha N., R?jou-M?chain M., Couteron P., Barbier N., Alfonso A., Bako O., Bassama P., Behera D., Bissiengou P., Biyiha H., Brockelman W.Y., Chanthorn W., Chauhan P., Dadhwal V.K., Dauby G., Deblauwe V., Dongmo N., Droissart V., Jeyakumar S., Jha C.S., Kandem N.G., Katembo J., Kougue R., Leblanc H., Lewis S., Libalah M., Manikandan M., Martin-Ducup O., Mbock G., Memiaghe H., Mofack G., Mutyala P., Narayanan A., Nathalang A., Ndjock G.O., Ngoula F., Nidamanuri R.R., P?lissier R., Saatchi S., Sagang L.B., Salla P., Simo-Droissart M., Smith T.B., Sonk? B., Stevart T., Tjomb D., Zebaze D., Zemagho L., Ploton P.

Affiliations

Department of Agro-Industrial, Food and Environment Technology, Faculty of Applied Science, King Mongkut’s University of Technology North Bangkok, Bangkok, 10800, Thailand; Department of Microbiology, Faculty of Science, Srinakharinwirot University, 114 Sukhumvit 23, Watthana, Bangkok, 10110, Thailand; Program in Innovation of Environmental Management, College of Innovative Management, Valaya Alongkorn Rajabhat University Under the Royal Patronage, Pathumthani Province13180, Thailand; BIOTEC-JGSEE Integrative Biorefinery Laboratory, Innovation Cluster 2 Building, Thailand Science Park, Phaholyothin Road, Khlong Luang, Pathumthani, 12120, Thailand; Biorefinery Technology and Bioproducts Research Group, National Center for Genetic Engineering and Biotechnology, 113 Thailand Science Park, Phaholyothin Road, Khlong Luang, Pathumthani, 12120, Thailand; Department of Biology, Faculty of Science, Nakhon Phanom University, 124 Moo 12, Ard-Samart Subdistrict, Muang District, Nakhon Phanom, 48000, Thailand; Centre for Water Advanced Technologies and Environmental Research (CWATER), College of Engineering, Swansea University, Swansea, SA1 8EN, United Kingdom; The Biosensor and Bioelectronics Technology Centre, King Mongkut’s University of Technology, North Bangkok, Bangkok, 10800, Thailand

Type

Article

Source Title

Nature Environment and Pollution Technology

ISSN

9726268

Year

2024

Volume

23

Issue

1

Page

235-243

Open Access

All Open Access, Gold

Publisher

Technoscience Publications

DOI

10.46488/NEPT.2024.v23i01.019

Abstract

Ten species of white-rot fungi were evaluated for their ability to decolorization of palm oil mill effluent. The highest decolorization efficiency was found with Trametes elegans (PP17-06), followed by Ganoderma sp.2 (PW17-06) and Ganoderma sp.2 (PW17-177), respectively. T. elegans was further evaluated for the long-term performance of decolorization for 24 d. The optimal retention time for the decolorization was 8 d, with a color removal efficiency of 47.7%. Beyond 18 d of incubation, decolorization efficiency was reduced due to the autolysis of enzymes. During the biodegradation process, manganese peroxidase enzyme activities reached a maximum of 36.03 U.L?1. However, no significant laccase and lignin peroxidase activities were observed. T. elegans was also assessed for decolorization performance through biosorption on mycelial biomass. The synthesis of the enzyme was prevented by exposing the mycelium to HgCl2. Within an optimal contact time of 2 d, decolorization efficiency reached 12.5% with ADMI reduction from 4259.0 (?20.1) ADMI to 3727 (?104.04) ADMI. Results indicate that the adsorption capacity was reached at this time, and no significant color removal can be achieved by biomass. Results obtained in this study showed the potential of T. elegans in decolorizing palm oil mill effluent. ? 2024 Technoscience Publications. All rights reserved.

License

CC BY

Rights

Nature Environment and Pollution Technology

Publication Source

WoS

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