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Lestari MP Alibasyah
Tadulako University
Biochemistry, Genetics & Molecular Biology Medicine & Pharmacology Public Health

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Phylogenetic Analysis of Sulawesi Endemic Butterfly Papilio polytes Using the COI (Cytochrome Oxidase I) Gene Andi Nurjannah; Lestari MP Alibasyah; Manap Trianto; Masrianih Masrianih; Yulia Windarsih; Amalia Buntu
Biology, Medicine, & Natural Product Chemistry Vol 15, No 1 (2026)
Publisher : Sunan Kalijaga State Islamic University & Society for Indonesian Biodiversity

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14421/biomedich.2026.151.705-713

Abstract

Papilio polytes is a butterfly belonging to the family Papilionidae and is endemic to Sulawesi. The evolutionary relationships of this species were investigated through phylogenetic analysis based on mitochondrial DNA, specifically the COI (Cytochrome Oxidase I) region, which was subsequently reconstructed into a phylogenetic tree. This study aimed to analyze the phylogenetic relationships of P. polytes collected from Bakubakulu Village, Palolo District, Sigi Regency, Central Sulawesi, in relation to other members of the genus Papilio from different regions. Specimens of P. polytes were collected using a roaming (exploratory) method, followed by DNA isolation, DNA amplification, sequencing, electrophoresis, and bioinformatics analyses using GeneStudio, DNASTAR, MESQUITE, and MEGA 11. The phylogenetic tree analyses using the Neighbor Joining (NJ) and Maximum Likelihood (ML) methods revealed clear evolutionary relationships. Papilio polytes from Central Sulawesi showed a closer genetic relationship with P. polytes from other regions and clustered within the same clade, whereas other species formed separate clades. Genetic distance analysis based on the COI gene indicated that P. polytes from Central Sulawesi exhibited a genetic distance of 0.00% among individuals, suggesting very high genetic similarity within the population. The genetic distance between P. polytes from Central Sulawesi and P. polytes populations from other regions was relatively low, ranging from 0.00% to 3.86%, while the distance to the outgroup species Eurytides marcellus and Battus polydamas was much higher, ranging from 13.15% to 16.25%. These findings indicate that the phylogenetic relationships among P. polytes populations are very close and consistent.
Identification of Food Sources of Apis cerana Fabricius, 1793 Based on Pollen Analysis Moh Syahrial Farawansyah; Lestari MP Alibasyah; Manap Trianto; Masrianih Masrianih; Yulia Windarsih; Amalia Buntu
Biology, Medicine, & Natural Product Chemistry Vol 15, No 1 (2026)
Publisher : Sunan Kalijaga State Islamic University & Society for Indonesian Biodiversity

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14421/biomedich.2026.151.723-730

Abstract

Apis cerana commonly known as the “Asian honey bee,” has been utilized for thousands of years across Asia, its native region, for honey production and pollination services. This species is often described as the closest “twin” of its European/African sister species, A. mellifera. This study aimed to identify plant species serving as pollen food sources for the honey bee A. cerana based on pollen morphological analysis. The research was conducted using a descriptive exploratory approach in Jononunu Village, Parigi Tengah District, Parigi Moutong Regency, Central Sulawesi, Indonesia. Pollen samples were collected from worker bees during foraging activities and subsequently analyzed through acetolysis and microscopic examination in the laboratory. Pollen identification was based on morphological characteristics, including exine ornamentation, aperture type, and pollen size.The results showed that A. cerana utilized pollen sources from 14 plant species belonging to 12 families, indicating a high diversity of forage resources. The identified pollen morphological characteristics comprised four types of exine ornamentation, six aperture types, and pollen sizes ranging from very small to large, with small- to medium-sized pollen being dominant. Tricolporate aperture types and psilate ornamentation were the most frequently observed characteristics. Based on plant growth form, pollen sources were predominantly derived from tree species, followed by herbs, while shrubs and bushes contributed less. These findings provide important baseline information for melissopalynological studies and may serve as a reference for the management and conservation of A. cerana and its forage plants.
Plant Lice Species (Suborder: Sternorrhyncha) on Ornamental Plants in Kampal Village and Surrounding Areas Delia Nurhaliza; Masrianih Masrianih; Manap Trianto; Amalia Buntu; Yulia Windarsih; Lestari MP Alibasyah
Biology, Medicine, & Natural Product Chemistry Vol 15, No 1 (2026)
Publisher : Sunan Kalijaga State Islamic University & Society for Indonesian Biodiversity

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14421/biomedich.2026.151.505-512

Abstract

Plant lice (Suborder: Sternorrhyncha) are important pests of ornamental plants, capable of causing physical damage and transmitting plant pathogens. These insects pose a significant threat as they can reduce growth, impair physiological functions, and even cause plant death. Their feeding activity affects leaves, stems, and flowers, thereby reducing overall plant health and aesthetic value. Understanding the diversity and host associations of these pests is essential for effective management. This study aimed to identify the species of Sternorrhyncha plant lice present on ornamental plants in Kampal Village, Parigi Moutong, Central Sulawesi. A qualitative descriptive approach was employed, using purposive sampling to collect specimens from different plant parts, including shoots, leaves, flowers, and stems. Observations were recorded and analyzed to determine species composition, host range, and infestation patterns. A total of 25 ornamental plant species belonging to 16 families were observed as host plants. Some plant families, such as Euphorbiaceae, Acanthaceae, Rubiaceae, Palmae, Rutaceae, Araceae, and Agavaceae, were infested by more than one plant louse family, while individual plant species could host multiple louse families simultaneously. Seventeen Sternorrhyncha species were identified, distributed across seven families: Pseudococcidae (6 species), Coccidae (3), Diaspididae (2), Aphididae (2), Margarodidae (2), and Aleyrodidae and Ortheziidae (1 species each). These results provide baseline data on the diversity and distribution of Sternorrhyncha plant lice in Kampal Village. Such information is critical for developing targeted pest management strategies to protect ornamental plants and maintain their health and aesthetic value in residential and cultivated areas.
Identification of Lichen Based on Substrate in Bale Village, Tanantovea District, Donggala Regency Adrian Adrian; Lilies Lilies; Lestari MP Alibasyah; Bustamin Bustamin; Syech Zainal; Musdalifah Nurdin
Biology, Medicine, & Natural Product Chemistry Vol 15, No 1 (2026)
Publisher : Sunan Kalijaga State Islamic University & Society for Indonesian Biodiversity

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14421/biomedich.2026.151.605-611

Abstract

Lichens are associations between fungi and photosynthetic symbionts, such as algae or cyanobacteria, that form stable and specialized thallus structures. The fungi that predominantly compose the lichen body belong to the Ascomycetes, while the algal partners contribute to the overall structure. This association enhances the ability of both fungi and algae to survive in suboptimal environmental conditions because the thallus structure, physiology, and chemical synthesis of lichens differ from those of the individual fungi or algae that constitute them. Lichens are lower plants that occur in various habitats worldwide and dominate terrestrial ecosystems, covering approximately 8% of the Earth’s land surface. Globally, around 20,000 lichen species have been reported, whereas in Indonesia, 595 species or about 3% of the world’s total have been documented. This study aimed to identify lichen species based on their substrates in the Bale Village area, Tanantovea District, Donggala Regency. The sampling method used was the exploration method. Lichen samples were collected from various substrates, followed by direct macroscopic observations to identify the species obtained. Research sites were determined using purposive sampling, selected based on the environmental conditions and the diversity of substrates where lichens grow. Three locations were designated as research stations: Station 1 (residential area), Station 2 (forest and river area, partly used as a tourist site), and Station 3 (forest area and local plantations). The results of this study identified 10 lichen species belonging to 5 families and found on 3 types of substrates. Environmental parameter measurements at the research sites showed an average temperature of 27.66°C, air humidity of 66%, and light intensity of 828.66 cd. These values indicate warm, humid conditions with moderate to highlight intensity conditions generally optimal for the growth and development of lichens.
Co-Authors Adrian Adrian Andi Nurjannah Bustamin Bustamin Delia Nurhaliza Lilies Lilies Manap Trianto Masrianih Masrianih Moh Syahrial Farawansyah Musdalifah Nurdin Syech Zainal Yulia Windarsih Yulia Windarsih