Recent Publications
View
Home
Recent Publications
View
Export
Printer Friendly
Printer Friendly
Export to Excel
Export to Excel
Export to Word
Export to Word
Export to HTML
Export to HTML
Export to XML
Export to XML
Export to CSV
Export to CSV
Export to PDF
Export to PDF
Email
Email
Item type
Journal Article
Bibliography
Inapo, D.; Ban, G.; Akanda, S. (2024) Identification and distribution of Trichoderma species in the four regions of Papua New Guinea, In: Interdisciplinary Journal of Papua New Guinea University of Technology, Vol.1 (1), 59-67, URL: https://doi.org/10.63900/3cpm2x91
Abstract / Content summary
Trichoderma, a soil-dwelling fungus, is a reliable biocontrol agent that combats crop diseases, enhances plant resistance to environmental stresses, improves nutrient uptake efficiency, and promotes plant growth. Studies were conducted in the Papua New Guinea University of Technology (PNGUoT) laboratory using soil samples collected from four regions across 16 provinces in PNG. The objectives were identifying Trichoderma species, determining their phylogenetic relationships, and analyzing their population distribution. Twenty isolates were morphologically identified as Trichoderma, and further categorized into five species, i.e., T. harzianum, T.virens, T. hamatum, T. lixii, and T. asperellum, through molecular characterization. The phylogeny analysis generated an outgroup and two clades. Trichoderma lixii from Chimbu Province was an outgroup compared to the other four species. The first clade showed that T. harzianum (SHP) is closely related to T. virens (Manus) with a bootstrap value of 100%. The second clade showed that T. harzianum (Sandaun) is closely related to T. asperellum (East Sepik); T. harzianum (Central) with T. harzianum (NCD) and T. harzianum (Morobe); T. virens (Madang) with T.virens (New Ireland); and T. asperellum (Madang) with T. hamatum (ENB), respectively. Trichoderma harzianum was the dominant species. The highest population of Trichoderma was found in New Ireland Province with 15 882 CFU (A. manihot), while the lowest of 47 CFU (I. batatas) was in Western Highlands Province. The findings from this study can contribute towards the potential development of a Trichoderma species into a biological control against soil-borne pathogens in PNG. Keywords: Prevalence, morphology, molecular identification, phylogeny.
File
IDJPNGUT1-1_2024p59Trichoderma.pdf
File info
1.95 MB, PDF
External web link
https://doi.org/10.63900/3cpm2x91
Library Locations
Associated conference
identifier
Record
of 7,519
From
To
Cc
Bcc
Subject
Message
Title
Body
Drop file here or click to upload
0%
Crop
