간행물
Korean Journal of Environmental Biology KCI 등재 환경생물
- 발행기관 한국환경생물학회
- 자료유형 학술지
- 간기 계간
- ISSN 1226-9999 (Print)2287-7851 (Online)
- 수록기간 1983 ~ 2025
- 주제분류 자연과학 > 생물학 자연과학 분류의 다른 간행물
- 십진분류KDC 472DDC 570
권호리스트/논문검색
Vol.43 No.3 (2025년 9월) 12건
1.
2025.09
구독 인증기관 무료, 개인회원 유료
The flora of the vascular plants in Ungseokbong County Park, Sancheonggun, Gyeongsangnam-do, was surveyed 11 times from April 2023 to September 2024. The surveys revealed 461 taxa, comprising 101 families, 288 genera, 417 species, 11 subspecies, 30 varieties, and three forms. Of these, two taxa were designated as endangered species, six taxa as rare plants, and 19 taxa as Korean endemic plants. The study also documented a total of 69 taxa as floristic regional plants, specifically two taxa of grade V, five taxa of grade IV, 11 taxa of grade III, 18 taxa of grade II, and 33 taxa of grade I. Furthermore, six taxa were identified as plants adaptable to climate change, comprising two northern species and four southern species. Forty-four taxa of alien plants and four taxa of ecosystem-disturbing plants were also found in this area. This study, based on reference specimens, provides fundamental data on the distribution and status of plants in Ungseokbong County Park and is expected to serve as a resource for the conservation and management of plant resources.
4,900원
2.
2025.09
구독 인증기관 무료, 개인회원 유료
Desmidiales (Conjugatophyceae, Charophyta) are commonly found in freshwater ecosystems and exhibit high species diversity, particularly in acidic wetlands, lakes, swamps, and peat bogs. They possess a distinctive morphology characterized by symmetrical semicells, and their wide variation in cell shape and size presents challenges in species identification due to high morphological plasticity. Although 832 species of Desmidiales have been reported in Korea, phylogenetic studies have been limited to only a few taxonomic groups. This study focused on investigating species-level relationships among Desmidiales using strains from the Freshwater Bioresources Culture Collection (FBCC), integrating morphological characteristics, ecological data, and original species descriptions. A total of 352 new plastid gene sequences were generated for phylogenetic analyses, including accD (30), atpA (42), atpB (22), ndhH (37), petA (37), psaA (32), psbA (44), psbC (1), psbD (39), rbcL (40), rpl2 (19), and rpoB (9). Among the 12 plastid genes analyzed, psbA showed the highest proportion of conserved sites (83.9%), while petA exhibited the highest proportion of variable sites (38.7%). Based on the combined phylogenetic analysis, Desmidiales were grouped into five major clades: Cosmarium Clade-1: Cosmarium punctulatum, Cosmarium sp. 1, Cosmarium Clade-2: C. blyttii, C. botrytis, C. costatum, C. ochthodes, C. pachydermum, C. subcostatum, C. subcrenatum, C. subprotumidum, C. trilobulatum, Cosmarium Clade-3: C. angulosum, C. formosulum, C. granatum, C. impressulum, C. norimbergense, C. regnellii, C. subtumidum, Cosmarium sp. 2, Staurastrum Clade-1: Staurastrum avicula var. lunatum, Staurastrum Clade-2: S. boreale, S. dispar, S. kouwetsii, S. margaritaceum, S. punctulatum. The newly generated sequence data from FBCC strains will serve as a valuable resource for accurate species identification and for exploring the molecular ecology of Desmidiales in freshwater ecosystems. This phylogenetic framework improves our understanding of Desmidiales species diversity in Korea and aids in achieving a more comprehensive taxonomic resolution within this algal order.
6,000원
3.
2025.09
구독 인증기관 무료, 개인회원 유료
In this study, we report the first occurrence of the filamentous green macroalga Basicladia okamurae (Cladophorales, Chlorophyta) from Korea. This species was originally described as Chaetomorpha okamurae by Ueda in 1932 in Japan and was later transferred to the genus Basicladia. Basicladia okamurae (Ueda) Garbary 2010 has also been found in China and the Netherlands, supported by morphological and molecular evidence. We collected several filamentous green algal individuals from the freshwater stream Sanhocheon (Changwon-si, Republic of Korea) and identified the species as B. okamurae based on morphological characteristics and nuclear ribosomal large subunit (LSU) rDNA sequence analysis. The LSU rDNA sequences of the Korean B. okamurae exhibited 99.8-100% similarity with those of B. okamurae deposited in GenBank (NCBI) and could be distinguished from other species in the order Cladophorales, which showed less than 91.2% similarity. Based on this morphological and molecular evidence, we confirm the species identification as an unrecorded B. okamurae (Ueda) Garbary.
4,000원
4.
2025.09
구독 인증기관 무료, 개인회원 유료
Five spider species from the genus Pholcus Walckenaer, 1805, namely Pholcus geogeum sp. nov., Pholcus hongseong sp. nov., Pholcus gochang sp. nov., Pholcus jeocheon sp. nov., and Pholcus yongin sp. nov., are newly described from Korea. These five new species, which belong to the phungiformes group within the genus, can be distinguished from their congeners by the shape and structure of the genital organs of both males and females. They are found on rock walls and at cave entrances in mountainous and hilly mixed forests. This study provides diagnoses, detailed descriptions, and taxonomic photographs of the newly described species.
4,500원
5.
2025.09
구독 인증기관 무료, 개인회원 유료
Nannochloropsis oceanica has been recognized as a valuable source of eicosapentaenoic acid (EPA) for nutraceutical applications. In this study, the effects of temperature on the growth and fatty acid production of N. oceanica were investigated to determine the optimal conditions for maximizing both growth and EPA production. The growth responses of N. oceanica exhibited a wide temperature range of 5-30°C, with the maximum cell density at 25°C (35.9×105 cells mL-1). Biomass production, as measured by dry weight in N. oceanica culture, was the highest at 20°C (86.2 mg L-1). In N. oceanica cultures exposed to relatively low temperatures (5-10°C), cells did not grow significantly; however, the proportion of polyunsaturated fatty acids including EPA (22.3, 26.0% of total fatty acid), was significantly high. These results indicate that the optimal temperature conditions for promoting growth and EPA accumulation of N. oceanica are different. Based on these results, a temperature-dependent two-stage cultivation strategy was proposed to optimize both biomass and EPA production in N. oceanica cultures, which included an initial phase at 20°C to achieve high biomass, followed by a second phase at 5-10°C to maximize EPA accumulation.
4,200원
6.
2025.09
구독 인증기관 무료, 개인회원 유료
This study investigated butterfly communities in riparian zones adjacent to dams, comparing agricultural (AG) and non-agricultural (NAG) areas. From April to October 2024, biweekly butterfly surveys were conducted using a standardized line transect method across three dam regions in Jeollanam-do, South Korea. NAG sites consistently showed higher species richness and total abundance than AG sites, although these differences were not statistically significant. Extrapolated diversity estimates indicated variations between the two areas, except for species richness. Seasonal patterns of species richness and abundance differed between land-use types. Rank-abundance distribution analysis revealed that NAG areas had more even species distributions, best described by the Log-normal model, while AG areas exhibited steep dominance patterns consistent with the Zipf-Mandelbrot model. The five most dominant species comprised 73.4% of individuals in AG sites, compared to just 51.4% in NAG sites. NMDS ordination illustrated distinct community clustering between NAG and AG sites, though PERMANOVA and MRPP did not identify statistically significant group differences. These findings suggest that reduced disturbance and greater habitat heterogeneity in NAG areas promote more resilient and balanced butterfly communities. The study emphasizes the ecological importance of natural riparian zones and highlights the potential of butterfly assemblages as indicators for biodiversity monitoring and conservation planning.
4,000원
7.
2025.09
구독 인증기관 무료, 개인회원 유료
The genus Pleurastrum is a coccoid green alga comprising 10 species worldwide. Pleurastrum exhibits simple morphology and high polymorphism, which complicates the understanding of its diversity. We examined the morphological and ultrastructural characteristics of Pleurastrum using light, confocal, and transmission electron microscopy. Additionally, we performed phylogenetic analysis based on multigene sequences (nuclear SSU rDNA, 5.8S, internal transcribed spacer (ITS2) region, and plastid rbcL and tufA genes) from Pleurastrum strains to report two previously unrecorded freshwater species (Pleurastrum insigne and Pleurastrum microstigmatum) in Korea. The vegetative cells were predominantly spherical, with a few being ellipsoidal, and each cell contained a chloroplast with one pyrenoid. The sporangia produced several daughter cells, while the biflagellate zoospores were ellipsoidal and motile. Phylogenetic analysis confirmed that P. insigne and P. microstigmatum form well-supported monophyletic clades. Analysis of ITS2 secondary structures revealed similar patterns, with several differences in nucleotide sequences and insertions between the two species. The findings of this study expand the known distribution of Pleurastrum and enhance our understanding of its species diversity in Korea.
5,400원
8.
2025.09
구독 인증기관 무료, 개인회원 유료
The red imported fire ant (Solenopsis invicta Buren, 1972) was first identified in Korea in 2017 and continues to be detected during quarantine measures. This study assessed the efficacy of three enhanced ant trap designs (narrow-top, wide-top, widebottom) aimed at addressing the limitations associated with conventional multi-tube traps. Colonies of Tetramorium tsushimae, a prevalent ant species in Korea, were utilized for performance evaluation. Traps were strategically positioned 1.5 meters from nest entrances, and capture efficiency was determined by recording the time required to capture three ants, as well as the total number of ants collected after a period of six hours. Each experimental condition was replicated 15 times, and the results were analyzed using one-way ANOVA and Tukey’s HSD test. The wide-bottom trap exhibited the shortest detection time (19 minutes) and the highest capture efficiency (Z=0.76), whereas the narrow-top trap proved to be the least effective. These findings suggest that the wide-bottom trap design is the most effective instrument for the early detection of invasive ant species and may play a critical role in preventing the introduction of S. invicta in Korea.
4,000원
9.
2025.09
구독 인증기관 무료, 개인회원 유료
This study investigated the effects of elevated salinity on the growth, morphology, and biochemical composition of two freshwater microalgae species: Chlorella thermophila (a green alga) and Anabaena variabilis (a cyanobacterium). The goal was to understand their adaptive mechanisms under saline stress and evaluate their potential for biofuel production. These species were chosen for their ecological significance and contrasting cellular structures (unicellular versus filamentous), which provide complementary insights into salinity tolerance among freshwater microalgae. Cultures were maintained in both standard BG11 medium and artificial seawater medium (SWM) under controlled light intensity (200 μmol photons m-2 s-1) and pH (7.5). Over a cultivation period of 10-20 days, we quantified key parameters, including cell size, volume, chlorophyll a, protein, lipid content, and fatty acid profiles, using microscopy (ImageJ), spectrophotometry, FTIR, and GC-MS analysis. Both species showed increased cell volume and lipid accumulation in SWM, with C. thermophila experiencing a dramatic volume increase from 5.83 μm3 to 54.76 μm3) and a 6.8% rise in lipid productivity. Fatty acid profiling identified distinct fatty acids, such as palmitoleic and pantetheic acids, in C. thermophila cultivated in SWM. These specific fatty acids may indicate adaptive strategies for osmoregulation or metabolic shifts toward energy storage under salinity-induced stress. These findings highlight the potential of salinity-driven modulation of microalgal metabolism to enhance biofuel precursors, offering a sustainable approach for biomass production in saline environments with reduced reliance on freshwater.
4,900원
10.
2025.09
구독 인증기관 무료, 개인회원 유료
Roseolithon sabulosum, a coralline algal species within Hapalidiaceae, has been documented from Japan. Phylogenetic analyses based on rbcL and psbA sequences confirmed that the Korean non-geniculate coralline algal specimens from Jeju Island are conspecific with Japanese R. sabulosum, including the holotype. Additionally, both morpho-anatomical and molecular analyses confirmed the identity of our specimens as R. sabulosum. Roseolithon sabulosum is characterized by flared epithallial cells, variable subepithallial initials, and multiporate tetra/bisporangial conceptacles elevated above the thallus surface with 4-7 rosette cells in conspicuous depressions that produce a pitted appearance. Its conceptacle roofs are composed of 3-6 cell layers, and pore canals are lined by 2-4-celled filaments containing rosette cells with disintegrated roofs underlain by elongate to wedge-shaped cells longer than other roof cells. In this study, we report R. sabulosum for the first time in Korea, thereby broadening its known distribution to include both Korea and Japan.
4,000원
11.
2025.09
구독 인증기관 무료, 개인회원 유료
Yongho Lee, Minseok Park, Dokyung Kim, Yongeun Kim, Youn-Joo An, Seunghun Hyun, Sun Hee Hong, June Wee
Heavy metal contamination from abandoned mines presents long-term risks to soil ecosystems by altering physicochemical conditions and limiting microbial functions. To investigate these effects, we analyzed soils from the Deoksan Pb-Zn abandoned mine in Korea using community-level physiological profiling (CLPP) with Biolog EcoPlateTM. Soil samples were collected from three contaminated sites and one uncontaminated control, and we assessed their physicochemical properties, heavy metal concentrations, and microbial substrate utilization patterns over a 7-day incubation period. The results revealed significant site-specific differences in soil chemistry, with Zn and Pb concentrations exceeding ecological safety thresholds near the mine adit. Average well color development (AWCD) increased over time across all sites, but functional trajectories differed: highly contaminated soils exhibited prolonged increases, while low-contamination soils plateaued earlier. Substrate utilization patterns shifted over time, with carbohydrates and carboxylic acids dominating in the early incubation phase, while phosphorylated chemicals became more prominent in later stages. Multiple regression and relative importance analyses identified Cd, Pb, and Zn as key regulators of substrate utilization, with phosphorylated chemicals showing strong negative correlations (R 2>0.95). These findings indicate that heavy metal stress not only decreases overall microbial activity but also disrupts specific metabolic pathways. The utilization of phosphorylated chemicals emerged as a particularly sensitive functional indicator, underscoring its potential for ecological risk assessment and soil health monitoring in contaminated sites.
4,000원
12.
2025.09
구독 인증기관 무료, 개인회원 유료
From 2017 to 2024, we surveyed 43 diverse aquatic habitats in South Korea, leading to the identification of 18 cyanobacterial taxa that are newly recorded for the country, found across eight sites (about 18% of the surveyed locations). These taxa exhibit a wide range of morphological forms, including unicellular, colonial, filamentous, and heterocytous types, and belong to various orders such as Chroococcales, Synechococcales, Nostocales, and Stigonematales. Notably, this study provides a provisional record of Gomphosphaeria aponina in Korea, correcting its previous misidentification as G. natans. We also documented Dolichospermum compactum, a species that has been genetically reclassified. Additionally, we identified species with the potential to cause harmful algal blooms (HABs), such as Microcystis botrys and Gloeotrichia aurantiaca, which are crucial for domestic water quality monitoring. Currently, only 414 cyanobacterial taxa are recorded in Korea, representing less than 8% of the estimated global total of approximately 5,300 species. This significant gap underscores the considerable unrecorded diversity within Korean aquatic ecosystems. These findings substantially enhance the national cyanobacterial checklist and underscore the need for ongoing monitoring in understudied aquatic environments. They also highlight the importance of integrating classical morphological and ecological observations with advanced molecular methods. This polyphasic approach can accurately detect cryptic diversity and support robust ecological assessments. Overall, this comprehensive floristic expansion offers valuable baseline data for biodiversity inventories, ecological monitoring, and the development of microbial resources within Korean aquatic environments.
6,300원
