Ganoderma boninense basal stem rot induced by climate change and its effect on oil palm

Abubakar, Ahmed; Ishak, Mohd Yusoff; Bakar, Aisyah Abu; Uddin, Mohd. Kamal

doi:10.1007/s42398-022-00244-7

Cited by 5 publications

(3 citation statements)

References 72 publications

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“…Soil erosion and nutrient loss, particularly on steep terrains, can adversely affect soil fertility and long-term plantation productivity [43] . Additionally, replanting causes temporary disruptions in palm oil production, affecting revenue and supply chains, while also creating risks of disease spread to healthy trees [44] .…”

Section: Challenges In Traditional Replanting Approachesmentioning

confidence: 99%

Maximizing Oil Palm Yield: Innovative Replanting Strategies for Sustainable Productivity

Abubakar,

Kasim,

Ishak

et al. 2023

j. of environ. & earth. sci.

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This paper examines the significance of innovative replanting strategies in maximizing oil palm yield while ensuring sustainable productivity. Through a comprehensive review of literature and analysis of current practices, the major findings of this research highlighted the importance of advanced breeding and clonal selection in developing high-yielding and disease-resistant oil palm varieties. Precision agriculture technologies, including IoT devices, drones, and sensors, were identified as critical tools for data-driven decision making, optimizing resource efficiency, and reducing environmental impact. Sustainable land use planning and agroforestry integration emerged as key strategies to balance productivity with environmental conservation. The broader impacts of this work extend to other agricultural sectors and land use planning, offering valuable insights for policymakers and stakeholders to promote responsible and resilient agricultural practices. By embracing innovative replanting strategies, the oil palm industry can contribute to a more sustainable and prosperous future, balancing economic growth with environmental stewardship. Continued research and collaboration are essential to achieve these goals and foster a harmonious coexistence between productivity and sustainability, integrating precision agriculture technologies for resource optimization and reduced environmental impact, promoting sustainable land use planning and agroforestry integration to enhance biodiversity and ecosystem services. Strengthening collaborations between governments, industry players, and research institutions for innovation and knowledge exchange is essential.

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Section: Challenges In Traditional Replanting Approachesmentioning

confidence: 99%

Maximizing Oil Palm Yield: Innovative Replanting Strategies for Sustainable Productivity

Abubakar,

Kasim,

Ishak

et al. 2023

j. of environ. & earth. sci.

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“…Ganoderma boninense Pat., a notorious pathogen afflicting oil palm, poses a significant threat to the global production of vegetable oil [1]. Countries such as Malaysia and Indonesia are actively involved in extensive research endeavors, employing both traditional and modern methodologies, to develop fungicides and biocontrol agents to mitigate the impact of this formidable pathogen [2]. Ganoderma boninense operates with a level of sophistication reminiscent of an arch-nemesis in fictional narratives, employing highly effective strategies to evade early detection.…”

Section: Introductionmentioning

confidence: 99%

Antifungal potential of volatiles produced by Aspergillus neoniger F14 against Ganoderma boninense

Lutfia,

Rupaedah,

Hartanto

2024

IOP Conf. Ser.: Earth Environ. Sci.

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Ganoderma boninense Pat. is a fungal pathogen that primarily afflicts oil palm, leading to decreased palm oil yield and significant economic losses. The recent focus on biocontrol agents producing acids and volatile compounds has gained momentum due to their straightforward synthesis and ease of interaction with the phytopathogen. This research is a component of a project aimed at exploring the local biodiversity of antagonistic fungi in the oil palm plantation environment, with a specific focus on volatile organic compounds (VOCs) detected using Gas Chromatography-Mass Spectrometry (GC-MS). Isolate F14, a collection in the Laboratory of Applied Microbiology, BRIN, Indonesia was identified as Aspergillus neoniger, a novel report as a soil-originating fungal community in Indonesian oil palm plantations. VOC profiling using GC-MS revealed five dominant compounds namely (Z)-9-Tricosene, 1,2,3,4,5-Pentamethylcyclopentane, Dihexyl carbonate, Pentadecane, and Tridecyl laurate. Based on aromatogram disc tests against G. boninense colonies, it was determined that VOCs from A. neoniger F14 inhibited growth by 48% on the fifth day. The findings of this study contribute supportive information for further investigations into VOCs produced by other local antagonistic isolates against G. boninense.

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“…As white-rot fungi, some species like G. australe, G. lingzhi, G. lucidum , and A. rugosum can secrete a series of carbohydrate hydrolase, peroxidase enzymes, and laccases to degrade the organic matters in forests, and this performance has been widely used as biofuel, for industrial applications and pollution abatement (Jong et al, 2017 ; Si et al, 2019 , 2021 ; Wang et al, 2021 ). Besides, Ganoderma boninense, Ganoderma philippii , and A. rugosum as pathogenic species in Ganodermataceae can cause stem rot or root rot in forests leading to economic damage (Pilotti, 2005 ; Glen et al, 2009 ; Abubakar et al, 2022 ). To further understand how the economic and ecological values produced by Ganodermataceae species, genomics, transcriptomics, and proteomics were introduced by biologists to explore the mechanism of evolution, lignocellulose degradation, secondary metabolites biosynthesis, and plant-pathogenic (Chen et al, 2012 ; Kües et al, 2015 ; Zhu et al, 2015 ; Dhillon et al, 2021 ; Jiang et al, 2021 ; Lin et al, 2021 ; Liu et al, 2021 ; Sun et al, 2022a ).…”

Section: Introductionmentioning

confidence: 99%

Taxonomy and phylogeny of Sanguinoderma rugosum complex with descriptions of a new species and a new combination

2022

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Sanguinoderma is distributed in tropical and subtropical areas as a member of Amauroderma s. lat., and the economic values of Sanguinoderma led to high attention in the taxonomic studies. Previously, 16 species have been developed into Sanguinoderma. In this study, the taxonomic system of Sanguinoderma was reconducted based on morphological and multi-gene phylogenetic analyses, especially making a distinction for Sanguinoderma rugosum complex. Morphological analysis was based on the notes of macro- and micro morphological observations. Multi-gene phylogenetic analyses were used maximum likelihood (ML) and Bayesian inference (BI) analyses inferred from combined dataset of ITS, nLSU, rpb2, tef1, mtSSU, and nSSU. Combined with morphological characters and phylogenetic evidence, the results demonstrated that S. rugosum complex consists of five taxa, in which Sanguinoderma leucomarginatum was described as a new species, and it is characterized by the orbicular pilei with white to buff margin when fresh and clavate apical cells of pileipellis with septa. In addition, Amauroderma preussii was transferred to Sanguinoderma as a new combination due to its blood-red color-changed pore surface; it is characterized by the funnel-shaped, greyish brown, and glabrous pilei with strongly incurved margin. Detailed descriptions and photographs of the two species were provided. With the extension of this study, 18 species were accepted in Sanguinoderma, and 12 species among them were distributed in China. A key to accepted species of Sanguinoderma was also provided.

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Ganoderma boninense basal stem rot induced by climate change and its effect on oil palm

Cited by 5 publications

References 72 publications

Maximizing Oil Palm Yield: Innovative Replanting Strategies for Sustainable Productivity

Maximizing Oil Palm Yield: Innovative Replanting Strategies for Sustainable Productivity

Antifungal potential of volatiles produced by Aspergillus neoniger F14 against Ganoderma boninense

Taxonomy and phylogeny of Sanguinoderma rugosum complex with descriptions of a new species and a new combination

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