Your search keyword '"Geung Hwan La"' showing total 10 results

1. Quantitative Zooplankton Collection Methods for Various Freshwater Ecosystems and Their Applications

Author

Hyun-Gi Jeong, Hyun-Woo Kim, Soon-Mi Go, Hye-Ji Oh, Geung-Hwan La, and Kwang-Hyeon Chang

Subjects

Fixation (surgical), Ecology, Environmental science, Zooplankton, Freshwater ecosystem, Collection methods

Published

2019

2. Analysis of Food Web Structure of Nakdong River Using Quantitative Food Web Parameters Obtained from Carbon and Nitrogen Stable Isotope Ratios

Author

Mei-Yan Jin, Bohyung Choi, Kwang-Hyeon Chang, Geung-Hwan La, Kyung-Lak Lee, Hyun-Woo Kim, Hye-Ji Oh, Kyung-Hoon Shin, and Min-Ho Jang

Subjects

chemistry, Stable isotope ratio, Environmental chemistry, chemistry.chemical_element, Environmental science, Nitrogen, Carbon, Zooplankton, Food web, Trophic level

Published

2019

3. Effects of algal food quality on sexual reproduction of <scp>D</scp> aphnia magna

Author

Hyun-Woo Kim, Seong-Ki Kim, Kwang-Hyeon Chang, Dong-Kyun Kim, Geung-Hwan La, Kwang-Seuk Jeong, Jong-Yun Choi, Gea-Jae Joo, Keon-Young Jeong, and Min S. Park

Subjects

0106 biological sciences, sexual reproduction, media_common.quotation_subject, Daphnia magna, Zoology, 010603 evolutionary biology, 01 natural sciences, Zooplankton, Stephanodiscus hantzschii, Botany, Mating, reproductive and urinary physiology, Ecology, Evolution, Behavior and Systematics, Original Research, Nature and Landscape Conservation, media_common, Ecology, biology, Hatching, 010604 marine biology & hydrobiology, fungi, biology.organism_classification, Food web, Sexual reproduction, Algal food quality, Diatom, Reproduction, Chlorella vulgaris

Abstract

The objective of our study was to investigate sexual reproduction of Daphnia magna associated with mating behaviors and hatching rates, according to different algal food sources. Since a diatom is known to contain more abundant long‐chain poly unsaturated fatty acids (PUFAs), we hypothesized that the diatom‐consuming D. magna would exhibit more successful reproduction rates. Upon the hypothesis, we designed three experiments using two algal species, a green alga (Chlorella vulgaris) and a diatom (Stephanodiscus hantzschii). From the results, we found that the mating frequency and copulation duration increased in the treatment with S. hantzschii, resulting in a significant increase of hatching rates of resting eggs. In the other two repetitive mating strategies (e.g., one female vs. multiple males, and one male vs. multiple females), we found that the hatching rates of resting eggs were greater in the S. hantzschii treatment. In addition to the mating strategy, male body size significantly increased in the diatom treatment, hence average diameter of penis was also statistically different among the treatments (greater diameter in the S. hantzschii treatment). To examine the effect of algal food quality, we estimated quantity of fatty acids in the two algal species. Our result showed that S. hantzschii had a higher proportion of long‐chain PUFAs than C. vulgaris. Furthermore, a stable isotope analysis revealed that carbon and nitrogen originated from S. hantzschii were more assimilated to D. magna. In summary, our study manifested that diatom consumption of D. magna leads to more successful sexual reproduction. We then discussed how the diatom consumption of zooplankton influences food web dynamics in a freshwater ecosystem.

Published

2016

4. Role of macrophytes as microhabitats for zooplankton community in lentic freshwater ecosystems of South Korea

Author

Geung-Hwan La, Kwang-Hyeon Chang, Seong-Ki Kim, Gea-Jae Joo, Jong-Yun Choi, and Kwang-Seuk Jeong

Subjects

geography, geography.geographical_feature_category, Ecology, Applied Mathematics, Ecological Modeling, Lake ecosystem, Wetland, Plankton, Biology, Freshwater ecosystem, Zooplankton, Computer Science Applications, Macrophyte, Fishery, Computational Theory and Mathematics, Abundance (ecology), Modeling and Simulation, Epiphyte, Ecology, Evolution, Behavior and Systematics

Abstract

Zooplankton community distribution depends largely on the microhabitat characteristics of the water body. It has been reported that macrophytes provide microhabitats for zooplankton (e.g., space and food resources). To date, studies have focused on the overall influence of macrophytes on zooplankton (e.g., positive relationships with zooplankton diversity); however, the morphological characteristics of macrophytes have not been intensively studied. To fill this gap in knowledge, we investigated zooplankton abundance and diversity, macrophyte characteristics (types, dry weight, and species number), and physicochemical parameters (water temperature, dissolved oxygen, pH, conductivity, and chlorophyll a) by using the 1 × 1 m quadrat method. We surveyed 164 wetlands in South Korea during spring (May to June), prior to the summer monsoon. Patterning zooplankton distribution was accomplished using a Self-organizing map (SOM). We used 34 input variables (zooplankton genera) to train the model. The distribution of five plant habit parameters (no plant, emergent, free-floating, floating-leaved, and submerged) was investigated with a trained SOM plane, by environment data masking. Based on a U-matrix, three clusters were identified from the model. Zooplankton assemblages were positively related to macrophyte characteristics (i.e., dry weight, species number, and plant type). In particular, free-floating plants supported rotifers, such as Testudinella, and cladocerans, such as Alona, Chydorus, Diaphanosoma, and Ilyocryptus (mostly epiphytic). Submerged plants were associated with planktonic rotifers, such as Filinia, Ploesoma, Synchaeta, cladocerans, such as Daphnia, and copepods, such as Eucyclops and Macrocyclops. On the basis of these results, we suggest that the microhabitat structure, created by macrophytes, is an important factor in determining the diversity and abundance of zooplankton communities, because the different species compositions of macrophytes support diverse zooplankton genera in these habitats. The results indicate that macrophytes are the key components of lentic freshwater ecosystem heterogeneity, and the inclusion of diverse plant species in wetland construction or restoration schemes will result in ecologically healthy food webs.

Published

2014

5. Zooplankton Community Distribution and Food Web Structure in Small Reservoirs: Influence of Land Uses around Reservoirs and Kittoral Aquatic Plant on Zooplankton

Author

Seong-Ki Kim, Gea-Jae Joo, Kwang-Seuk Jeong, Sungwon Hong, Jong-Yun Choi, and Geung-Hwan La

Subjects

Oceanography, Open water, Land use, business.industry, Ecology, Aquatic plant, Littoral zone, Distribution (economics), Environmental science, business, Zooplankton, Food web

Abstract

We collected zooplankton from May to October, 2011, with the aim of understandingthe zooplankton community distribution and food web interaction between the openwater and littoral (aquatic plants) zones in two small reservoirs with different landcovers(Sobudang, Myeongdong). Small-sized reservoirs are more abundant in SouthKorea, and a total of 51 and 65 species of zooplankton were identified at the twosmall reservoir (Sobudang and Myeongdong), where zooplankton densities weremore abundant in the littoral zone than in the open water zone. Cladocerans andcopepods densities were also higher in the littoral zone, in contrast, rotifers showedhigher densities in the open water zone (t-test

Published

2013

6. Zooplankton Community Distribution in Aquatic Plants Zone: Influence of Epiphytic Rotifers and Cladocerans in Accordance with Aquatic Plants Cover and Types

Author

Seong-Ki Kim, Jong-Yun Choi, Geung-Hwan La, Gea-Jae Joo, and Kwang-Seuk Jeong

Subjects

Ecology, business.industry, Aquatic plant, Botany, Distribution (economics), Cover (algebra), Epiphyte, Biology, business, Zooplankton

Published

2013

7. Classification by Zooplankton Inhabit Character and Freshwater Microbial Food Web: Importance of Epiphytic Zooplankton as Energy Source for High-Level Predator

Author

a.-Jae Joo, Jong-Yun Choi, Kwang-Hyeon Chang, Seong-Ki Kim, Geung-Hwan La, Kwang-Seuk Jeong, and Gea-Jae Joo

Subjects

Fishery, Microbial food web, Character (mathematics), Stable isotope ratio, Ecology, Epiphyte, Biology, Energy source, Predator, Zooplankton

Published

2012

8. Patterning Zooplankton Communities in Accordance with Annual Climatic Conditions in a Regulated River System (Nakdong River, South Korea)

Author

Hyun-Woo Kim, Geung-Hwan La, Kwang-Seuk Jeong, Gea-Jae Joo, Dong-Kyun Kim, and Kwang-Hyeon Chang

Subjects

Abundance (ecology), Ecology, Water temperature, Streamflow, Assemblage (archaeology), Environmental science, Precipitation, Physical geography, Aquatic Science, Plankton, Zooplankton, Ecology, Evolution, Behavior and Systematics

Abstract

In this study, we investigated what environmental factors mainly influence the pattern of zooplankton communities in the regulated Nakdong River. Fifteen years of data (N = 629, 1994 to 2008) were used to analyze the patterns by means of self-organizing map (SOM), that is capable of extracting information through competitive and adaptive properties. A total of 34 variables (18 groups of zooplankton and 16 physicochemical parameters) were patterned onto the SOM, and then each variable was compared in accordance with three different annual rainfall patterns (i.e., dry, moderate, and wet). Finally, seven clusters were categorized according to Euclidian distance between the clusters on the SOM. Clear seasonal features for the variables were interpreted in five major categories, and two more subcategories were partitioned by a specific feature of zooplankton abundance and appearance. In the result, the patterns of zooplankton assemblage were mainly distinguished by water temperature, Secchi transparency, and river flow rate. In particular, the SOM result depicted a clear pattern of zooplankton assemblage clusters partitioned by annual precipitation, which accentuated the prolonged effect of dam regulation on plankton assemblage in a regulated river system.

Published

2012

9. Population growth of the Cladoceran, Daphnia magna: a quantitative analysis of the effects of different algal food

Author

Myoung-Chul Kim, Jong-Yun Choi, Geung-Hwan La, Seong-Ki Kim, Kwang-Seuk Jeong, Gea-Jae Joo, and Kwang-Hyeon Chang

Subjects

Ecological Metrics, Population Dynamics, Chlorella vulgaris, Daphnia magna, Marine and Aquatic Sciences, lcsh:Medicine, Chlorella, Daphnia, Zooplankton, Predator-Prey Dynamics, Population Metrics, Algae, Food Web Structure, Phytoplankton, Animals, Population Growth, lcsh:Science, Isotope analysis, Freshwater Ecology, Analysis of Variance, Multidisciplinary, Ecology, Population Biology, biology, Stable isotope ratio, Ecology and Environmental Sciences, fungi, lcsh:R, Biology and Life Sciences, Aquatic Environments, biology.organism_classification, Community Ecology, Isotope Labeling, Predatory Behavior, Earth Sciences, lcsh:Q, Population Ecology, Research Article, Freshwater Environments

Abstract

In this study, we examined the effects of two phytoplankton species, Chlorella vulgaris and Stephanodiscus hantzschii, on growth of the zooplankton Daphnia magna. Our experimental approach utilized stable isotopes to determine the contribution of food algae to offspring characteristics and to the size of adult D. magna individuals. When equal amounts of food algae were provided (in terms of carbon content), the size of individuals, adult zooplankton, and their offspring increased significantly following the provision of S. hantzschii, but not after the provision of C. vulgaris or of a combination of the two species. Offspring size was unaffected when C. vulgaris or a mixture of the two algal species was delivered, whereas providing only S. hantzschii increased the production of larger-sized offspring. Stable isotope analysis revealed significant assimilation of diatom-derived materials that was important for the growth of D. magna populations. Our results confirm the applicability of stable isotope approaches for clarifying the contribution of different food algae and elucidate the importance of food quality for growth of D. magna individuals and populations. Furthermore, we expect that stable isotope analysis will help to further precisely examine the contribution of prey to predators or grazers in controlled experiments.

Published

2014

10. Effect of removal of free-floating macrophytes on zooplankton habitat in shallow wetland

Author

Jong-Yun Choi, Kwang-Seuk Jeong, Geung-Hwan La, and Gea-Jae Joo

Subjects

zooplankton, lcsh:SH1-691, Biomass (ecology), geography, geography.geographical_feature_category, species diversity, Ecology, Aquatic ecosystem, Species diversity, Wetland, Management, Monitoring, Policy and Law, Aquatic Science, Zooplankton, lcsh:Aquaculture. Fisheries. Angling, Macrophyte, Fishery, shallow wetland, macrophyte habitat, Habitat, submerged macrophyte, Abundance (ecology), Environmental science, Nature and Landscape Conservation, Water Science and Technology

Abstract

Key-words: submerged macrophyte, macrophyte habitat, zooplankton, species diversity, shallow wetland Submerged macrophytes improve the structural heterogeneity of microhabitats in aquatic ecosystems, often providing an important habitat for zooplankton. However, excessive development of free-floating macrophytes on the water surface can reduce the biomass of submerged macrophytes and result in a relatively simple habitat structure. We hypothesized that controlling the development of free-floating macrophytes would result in a more complex habitat structure by promoting the development of submerged macrophytes. After applying three experimental treatments (NR, no removal; IR, intermediate removal; CR, complete removal of free-floating macrophytes), we found that CR of free-floating macrophytes improved the growth and development of submerged macrophytes and supported a large zooplankton assemblage. However, the largest zooplankton assemblage (in terms of abundance and diversity) was recorded after the IR treatment. Although submerged macrophytes were abundant in the CR treatment, the number, abundance, and density of zooplankton species were much lower than those in the IR treatment. Preferential selection of different macrophyte types by zooplankton presumably led to variation in plant utilization of niches, and the simultaneous presence of different macrophyte life forms created a complex microhabitat structure that induced high species diversity and zooplankton density.

Published

2014