Your search keyword '"Byung Bae Park"' showing total 128 results

1. Wood Pellet Driven-Biochar Characterization Produced at Different Targeted Pyrolysis Temperatures

Author

Irma Thya Rani, Jiho Yoo, Byung Bae Park, Wahyu Hidayat, Bangun Adi Wijaya, Sihyun Lee, Sangdo Kim, Hokyung Choi, Donghyuk Chun, Hyuk Im, and Soohyun Kim

Subjects

Forestry, SD1-669.5

Abstract

The imperative transition to renewable energy drives the need for innovation. Biomass, particularly wood pellets, has demonstrated poor performance in co-firing scenarios. This study employed pyrolysis to convert wood pellets into biochar with improved fuel quality. The biochar production and characterization were investigated at pyrolysis temperatures of 400°C to 500°C. The findings revealed significant improvements: the observed fixed carbon content increased from 67.2% to 78.8%, and the calorific value increased 1.2 times higher within the pyrolysis temperature increased. On the other hand, as the pyrolysis temperature increased from 400°C to 500°C, biochar yields decreased from 49% to 37%. Thermogravimetric (TG) analysis revealed distinct weight loss during heating, illuminating component volatilization and residue accumulation. Furthermore, Fourier transform infrared (FTIR) spectroscopy elucidated structural changes, demonstrating the evolution of cellulose and hemicellulose into aromatic structures. Ultimately, these insights into biochar characteristics informed the optimization of pyrolysis processes, contributing to the production of superior biochar for renewable energy applications. Keywords: biochar, biomass, carbon storage, pyrolysis, wood pellet

Published

2023

2. Quantifying Regulating Ecosystem Services of Urban Trees: A Case Study of a Green Space at Chungnam National University Using i-Tree Eco

Author

Wencelito Palis Hintural, Hee Jeong Jeon, Seo Young Kim, San Go, and Byung Bae Park

Subjects

ecosystem services, valuation, carbon sequestration, air pollutant removal, surface runoff reduction, Plant ecology, QK900-989

Abstract

Urban green spaces (UGSs) provide numerous ecosystem services (ESs) that are essential to the well-being of the residents. However, these services are often neglected in regional urban development and spatial planning. This study quantified the ESs of a 10.25 ha UGS at Chungnam National University, Daejeon, Republic of Korea, comprising 27 species with 287 tree individuals, using i-Tree Eco. Key regulating ESs investigated included air pollution removal, carbon storage and sequestration, oxygen production, energy use reduction, avoidance of surface runoff, and replacement and functional values. Results revealed significant annual environmental benefits: 131 kg air pollutants removed (USD 3739.01 or ₩5.16 M), 1.76 Mg carbon sequestered, which is equivalent to 0.18 Mg CO2 ha−1 yr−1 (USD 289.85 or ₩0.40 M), 2.42 Mg oxygen produced, energy savings (including carbon offset) valued at USD 391.29 (₩0.54 M), and 203 m3 reduction in surface runoff (USD 413.09 or ₩0.57 M). The annual total benefits of these urban trees amounted to USD 4833.86 (₩6.67 M), USD 16.83/tree, or USD 0.089/capita. Additionally, these trees had replacement and functional values estimated at USD 311,115.17 (₩429.3 M). The study underscores that species selection and abundance of urban trees are fundamental for maximizing the ES delivery in urban areas, highlighting the role of UGSs in ecological and economical sustainability in cities. These insights are valuable for urban planners and policymakers to optimize benefits of UGSs in cities.

Published

2024

3. Litterfall and element fluxes in secondary successional forests of South Korea

Author

Mark Bryan Carayugan, Ji Young An, Si Ho Han, and Byung Bae Park

Subjects

Biogeochemistry, Element flux, Carbon cycling, Nutrient cycling, Cool-temperate forest, Secondary succession, Ecology, QH540-549.5

Abstract

Determining litterfall and corresponding element fluxes is valuable in understanding productivity and biogeochemical cycling in floristically distinct secondary successional zones. Secondary-growth forests form a major portion of the cool-temperate forests of South Korea following decades of severe disturbance and intensive rehabilitation efforts. This study monitored the total and fraction-specific litterfall mass, element flux, and nutrient use efficiency patterns of a secondary-growth broadleaf deciduous forest (hereafter, BDFA) and compared these values in forests with contrasting sub-canopy compositions (BDFB) and with coniferous evergreen forests (CEF). Mean annual total litterfall mass was uniform across stands at a range of 871.5 g m−2 yr−1 to 990.2 g m−2 yr−1. Litterfall mass of seed, bark, and miscellaneous fractions varied per stand (p Ca > K > Mg > P, whereas NUE followed a reverse sequence. NUE in CEF was higher than BDFA and BDFB for all macronutrients, reflecting the distinct biomass allocation and nutrient utilization strategies between conifers and broadleaves. In temperate secondary-growth forests, nutrient cycling via litterfall is substantiated primarily by litterfall quantity and secondarily by litter element concentration. Our findings have important implications for elucidating forest litter ecology and improving sustainable management practices in secondary successional forests.

Published

2023

4. Variation in Root Biomass and Distribution Based on the Topography, Soil Properties, and Tree Influence Index: The Case of Mt. Duryun in Republic of Korea

Author

Julia Inacio Carvalho, Mark Bryan Carayugan, Lan Thi Ngoc Tran, Jonathan O. Hernandez, Woo Bin Youn, Ji Young An, and Byung Bae Park

Subjects

root distribution, sloping mountain, topography, tree density, tree influence index, Botany, QK1-989

Abstract

Root biomass and distribution are influenced by abiotic factors, such as topography and soil physicochemical properties, determining belowground productivity. Hence, we investigated the variation in root biomass and vertical root distribution based on the topography, soil physicochemical properties, and tree influence index, and their relationships, across soil depths (0–10 cm, 10–20 cm, and 20–30 cm) and topographical gradients in a warm-temperate forest in Mt. Duryun, Republic of Korea. Two contrasting research sites were established: a lower slope oriented at ≤3° and an upper slope with a slope of 30°. Each site comprised eleven 400 m2 sampling plots from which root samples from various diameter classes (10 mm) were collected. While the bulk density increased with soil depth in the lower slope, the organic matter, available phosphorus, Ca2+, and Mg2+ showed a reversed pattern. Linear mixed-effects models generally revealed significant negative correlations between root biomass and soil pH, total nitrogen, and cation exchange capacity, particularly in small roots (βstd = −1.03 to −1.51) and coarse roots (βstd = −6.30). Root biomass exhibited a 10–15% increase in the upper slope compared to the lower slope, particularly in fine (median = 52.0 g m2–65.64 g m2) and medium roots (median = 56.04 g m2–69.52 g m2) at a 0–20 cm soil depth. While no significant correlation between root biomass and the tree influence index was found on the lower slope, a different pattern was found on the upper slope. Our results indicate that the variation in root biomass and distribution can also be explained by the differences in the soil environment and topographical positions.

Published

2024

5. Leaf morpho-physiological traits of Populus sibirica and Ulmus pumila in different irrigation regimes and fertilizer types

Author

Ser-Oddamba Byambadorj, Jonathan Ogayon Hernandez, Sarangua Lkhagvasuren, Ge Erma, Khulan Sharavdorj, Byung Bae Park, and Batkhuu Nyam-Osor

Subjects

Leaf, Morphology, Physiology, Irrigation, Fertilizer, Semi-arid, Medicine, Biology (General), QH301-705.5

Abstract

Background The impacts of climate change, such as increased soil dryness and nutrient deficiency, highlight the need for environmentally sustainable restoration of forests and groundwater resources. However, it is important to consider that extensive afforestation efforts may lead to a depletion of groundwater supply due to higher evapotranspiration rates, exacerbating water scarcity issues. Consequently, we conducted a study to examine how the fast-growing tree species Populus sibirica (Horth ex Tausch) and Ulmus pumila (L.) respond morpho-physiologically to varying watering regimes and types of fertilizers, aiming to better understand their specific water and nutrient requirements. Methods We used two-year-old nursery-growth seedlings (N = 512) of P. sibirica and U. pumila with initial root collar diameter (RCD) and the height of 0.51 ± 0.02 mm and 68 ± 2.94 cm and 0.33 ± 0.01 mm and 51 ± 1.14 cm, respectively. The leaf area (LA), specific leaf area (SLA), chlorophyll concentration, stomatal conductance (gs), chlorophyll fluorescence, and predawn and midday leaf water potential were measured across treatments. Four different irrigation regimes and two different fertilizer types were applied: no irrigation (control, 0 L h−1), 2 L h−1 = 0.25 mm m−2, 4 L h−1 = 0.5 mm m−2, 8 L h−1 = 1.0 mm m−2 and 120 g and 500 g tree−1 of NPK and compost (COMP). Twelve plots (600 m2) were established in the study site for each species and treatments. Results During the first growing season (2021), the LA of P. sibirica was larger in the 4–8 L h−1 without fertilizer, but it was smaller in the 4 L h−1+ COMP during the second growing season (2022). The 2 L h−1 without fertilizer and 2 L h−1 + NPK had larger LA compared with the control (CONT) for the first and second growing seasons, respectively, for U. pumila. P. sibirica seedlings at 4 L h−1 without fertilizer had the highest SLA for 2021 and at 2 L h−1 + NPK for 2022, whereas CONT and 4 L h−1 had the highest SLA than the other treatments for 2021 and 2022 growing seasons, respectively, for U. pumila. The chlorophyll concentration of P. sibirica seedlings in the first year was generally higher in CONT, while the 2 L h−1 without any fertilizer yielded a significantly higher chlorophyll concentration of U. pumila. Chlorophyll fluorescence parameters (PIABS and Fm) were generally lower in CONT with/without NPK or COMP for both species. The CONT with NPK/COMP generally had a higher gs compared with the other treatments in both experimental periods for U. pumila, whereas CONT and 2 L h−1+ NPK-treated P. sibirica seedlings had a significantly greater gs during the first year and second year, respectively. The predawn and midday leaf water potentials of both species were generally the lowest in CONT, followed by 2 L h−1+ NPK/COMP during the first growing season, but a different pattern was observed during the second growing season. Overall, the morpho-physiological traits of the two species were affected by watering and fertilizer treatments, and the magnitude of the effects varied depending on growing season, amount of irrigation, and fertilizer type, and their interactions.

Published

2023

6. Fine-Root Distribution and Soil Physicochemical Property Variations in Four Contrasting Urban Land-Use Types in South Korea

Author

Lan Thi Ngoc Tran, Ji Young An, Mark Bryan Carayugan, Jonathan O. Hernandez, SK Abidur Rahman, Woo Bin Youn, Julia Inacio Carvalho, Min Seon Jo, Si Ho Han, Hai-Hoa Nguyen, and Byung Bae Park

Subjects

fine-root vertical distribution, soil properties, soil depth, urban land-use types, Botany, QK1-989

Abstract

Urbanization and associated forest conversions have given rise to a continuum of native (forest fragments) and modified (artificial grasslands and perennial ecosystems) land-use types. However, little is known about how these shifts affect soil and fine-root compartments that are critical to a functioning carbon and nutrient circulation system. In this study, soil physicochemical properties, fine-root mass, and vertical distribution patterns were investigated in four representative urban land-use types: grassland (ZJ), perennial agroecosystem (MP), broadleaf deciduous forest patch (QA), and coniferous evergreen forest patch (PD). We quantified the fine-root mass in the upper 30 cm vertical profile (0–30 cm) and at every 5 cm depth across three diameter classes (−2) > PD (487.2 g m−2) > ZJ (440.1 g m−2) > MP (98.3 g m−2). The fine-root mass of ZJ and MP was correlated with soil nutrients, which was attributed to intensive management operations, while the fine-root mass of QA and PD had a significant relationship with soil organic matter due to the high inputs from forest litter. Very fine roots (

Published

2024

7. Influence of Irrigation on Biomass Partitioning in Above- and Belowground Organs of Trees Planted in Desert Sites of Mongolia

Author

Ser-Oddamba Byambadorj, Byung Bae Park, Sarangua Lkhagvasuren, Enkhchimeg Tsedensodnom, Otgonsaikhan Byambasuren, Altankhundaga Khajid, Donato Chiatante, and Batkhuu Nyam-Osor

Subjects

irrigation, biomass, arid area, carbon sequestration, tree carbon, Plant ecology, QK900-989

Abstract

Planting trees is considered a crucial factor in mitigating the increase in carbon emissions in the atmosphere by generating plant biomass. In addition to advancing our understanding of how tree biomass is allocated in desert environments, we explore potential variations in biomass partitioning based on the irrigation regimes (4, 8, and 12 L h−1) supporting the growth of these trees. Specifically, this study compares the pattern of biomass distribution between above-ground and belowground organs of 11-year-old trees (U. pumila, E. moorcroftii, and T. ramosissima) planted in a desert site in Mongolia. An interesting result of this study is the demonstration that biomass partitioning among roots of different diameter classes differs between the tree species tested, suggesting that each tree species establishes its own type of root/soil interaction. The differences in biomass partitioning in roots could determine specificity in the strength of anchorage and efficiency of nutrition for the trees. We also demonstrate that the presence of plantations influences certain chemical properties of the desert soil, with differences depending on the tree species planted. In addition to presenting a method for planting trees in desert sites, this study underscores that a reliable evaluation of atmospheric carbon sequestration in trees must necessarily include root excavation to obtain an accurate measurement of biomass stored in belowground structures. Assessing the overall biomass produced by these trees allows us to determine the potential for carbon sequestration achievable through plantations established in desert sites.

Published

2023

8. Effects of Thinning Intensity on Litterfall Production, Soil Chemical Properties, and Fine Root Distribution in Pinus koraiensis Plantation in Republic of Korea

Author

Si Ho Han, Ji Young An, Jonathan O. Hernandez, Hee Moon Yang, Eun-Sook Kim, Nam Jin Noh, Jeong Min Seo, and Byung Bae Park

Subjects

belowground ecology, fine root biomass, fine root necromass, Korean pine, understory vegetation, Botany, QK1-989

Abstract

It is crucial to evaluate the effects of thinning on litterfall production, soil chemical properties, and fine root dynamics when implementing thinning as a silvilcultural technique to enhance tree growth and timber yield in Pinus koraiensis plantations. Thus, we determined the 10-year effects (2007–2017) of different thinning intensities on litterfall production, soil chemical properties, and fine root biomass and necromass within a P. koraiensis plantation in South Korea. The soil chemical parameters and fine root biomass and necromass were also compared across three soil depths (0–10, 10–20, and 20–30 cm). Three thinning treatments were employed: no thinning (CON), light thinning (32% removed, LT), and heavy thinning (64% removed, HT). Results revealed that litterfall was consistent across all thinning treatments, but broadleaf species had considerably higher litterfall production at HT stands than at CON/LT stands. Soil chemical properties, except exchangeable K+, were generally lower at LT stands, particularly at a depth of 20–30 cm soil. After ten years, there was a decrease in fine root biomass and necromass with increasing soil depth. Over 80% of fine roots were found in the upper layer (0–20 cm), while very fine roots (0–1 mm) consisted mainly of 47% pine and 53% other species and were concentrated in the 0–10 cm soil depth in HT. In conclusion, different thinning intensities had diverse effects on the parameters measured within the plantation. Future studies can explore how the effects of thinning intensities on litterfall production, soil chemistry, and fine root dynamics affect species diversity, carbon storage, and understory vegetation in P. koraiensis plantations.

Published

2023

9. Effects of wood ash and N fertilization on soil chemical properties and growth of Zelkova serrata across soil types

Author

Ji Young An and Byung Bae Park

Subjects

Medicine, Science

Abstract

Abstract Wood ash generated as a by-product of biomass combustion can be a sustainable and reasonable approach to counteract acidification and correct nutrient deficiency in forest soils. We investigated the influence of wood ash (WA) and combined WA + N (nitrogen) on soil chemical properties, growth and foliar nutrients of Zelkova serrata and their potential as a soil amender across different soil types. We applied four levels of WA (0, 5, 10, and 20 Mg ha−1) and two levels of N fertilizer (0 and 150 kg ha−1) across three different soil types: landfill saline (LS) soil, forest infertile (FI) soil, and forest acidic (FA) soil. The WA generally improved soil pH, organic matter, available P, exchangeable cations (K+, Na+, Ca2+, and Mg2+), and EC of the three soils, but its ameliorating and neutralizing effects were predominant in FA soil. N fertilizer was more effective in improving plant growth, especially for biomass production in LS and FI soils. WA application significantly increased biomass production when it was applied over 5 Mg ha−1 in FA soil, but higher dose rate of WA (i.e. 20 Mg ha−1) seems to pose negative effects. Foliar P, K, and Ca concentrations also tended to increase with the increasing amount of WA. Therefore, lower dosage of WA without N can be applied as a soil amender to counteract forest soil acidity and improve plant growth and foliar nutrient concentration, whereas N fertilizer without WA can be added to correct nutrient soil deficiencies in landfill and infertile soils. This study should enhance our understanding of WA as a sustainable and reasonable approach to counteract acidification and correct nutrient deficiency in forest soils.

Published

2021

10. The Effect of Different Watering Regimes on the Growth of Trees and Shrubs in Desert Regions of Mongolia

Author

Byambadorj Ser-Oddamba, Akhmadi Khaulenbek, Lunten Janchivdorj, Ochirbat Batkhishig, Byung Bae Park, and Nyam-Osor Batkhuu

Subjects

growth, seedling, irrigation, greenbelt, Biology (General), QH301-705.5

Abstract

The selection of tree species resistant to drought, cold, salt and other natural and anthropogenic stressors is important for the success of afforestation processes especially when these take place in desert and semi-desert regions of Mongolia. The seven woody species (Tamarix ramosissima, Ulmus pumila, Elaeagnus moorcroftii, Hippophae rhamnoides, Caragana microphylla, Armeniaca sibirica, Amygdalus pedunculata) were grown under four different watering regimes and nine years of continuous monitoring conducted on the growth performances. All measured growth traits (root collar diameter, stem height, and survival rate) showed significant differences between treatments and species. The best performance of stem height and root collar diameter was observed in T. ramosissima and E. moorcroftii whereas A. pedunculata presented be lowest values. Ulmus pumila, E. moorcroftii and T. ramosissima showed the highest survival rate compared with all other species. However, control plants showed a 0% survival rate in 2016. Date presented here suggest that native species are characterized by the best adaptive characteristics compared to non-native species, which species are the best candidates to be used for afforestation processes of desert and semi-deserts areas.

Published

2020

11. Effects of torrefied wood chip and vermicompost application on vegetation growth and nutrient uptake in the Saemangeum reclaimed land

Author

Aung Aung, Jeong Min Seo, Si Ho Han, Ji Young An, Huong Thi Thuy Dao, Woo Bin Youn, and Byung Bae Park

Subjects

Nutrient content, Populus euramericana, Saemangeum, Soil amendment, Weed biomass, Ecology, QH540-549.5

Abstract

Abstract Background In reclaimed land, the growth environment for plants may be unfavorable and the initial establishment and growth of seedlings could be limited because of low nutrient and water availability. Fertilization and control of understory vegetation that competes with seedlings may be of help in ameliorating soil physical and chemical properties, resulting in better seedling growth and reclamation success. However, the amount of nutrients understory vegetation absorbs in this ecological process has been rarely studied. Thus, we aimed to investigate the effect of soil amendment on biomass production and nutrient uptake by weeds in the nutrient-poor reclaimed area. We applied three levels of torrefied wood chip (TWC; 0, 2.5, and 5 Mg ha−1) and two levels of vermicompost (VC; 0 and 2.7 Mg ha−1) as soil physical improvements and organic soil amendments in reclaimed land in the Republic of Korea, with Populus euramericana used as the crop tree. Results TWC did not influence weed biomass, but 2.7 Mg ha−1 VC significantly increased weed biomass by 21% compared to 0 Mg ha−1 VC treatments. Nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), and sodium (Na) concentrations in weeds were the highest in control, but there was no statistical difference among treatments. However, VC treatment did marginally increase nutrient uptake in weeds, especially P, K, Ca, and Na. No treatments influenced crop tree height. Conclusion We conclude that VC can be used as an organic source of nutrients in reclaimed soil and that weed management is necessary to increase treatment effects on crop trees in this salt-affected reclaimed land.

Published

2020

12. Morpho-Anatomical Traits and Soluble Sugar Concentration Largely Explain the Responses of Three Deciduous Tree Species to Progressive Water Stress

Author

Jonathan O. Hernandez, Ji Young An, Marilyn S. Combalicer, Jong-Pil Chun, Sang-Keun Oh, and Byung Bae Park

Subjects

Adaptive mechanisms, Betula schmidtii, drought-stress, drought response, tolerance, tree physiology, Plant culture, SB1-1110

Abstract

A better understanding of plant drought responses is essential to improve plant water use efficiency, productivity, and resilience to ever-changing climatic conditions. Here, we investigated the growth, morpho-anatomical, physiological, and biochemical responses of Quercus acutissima Carruth., Quercus serrata Murray, and Betula schmidtii Regel to progressive water-stress. Seedlings were subjected to well-watered (WW) and water-stressed (WS) conditions while regularly monitoring the soil volumetric water content, stem diameter (SD), height, biomass, stomatal conductance (gs), intercellular CO2 concentration (Ci), and leaf relative water content (RWC). We also investigated the variation in stomatal pore (SP) area, specific leaf area (SLA), root xylem vessel diameter (VD), and total soluble sugar (TSS) concentration between treatments. After 2 months, WS significantly suppressed SD growth of Q. acutissima and B. schmidtii but had no impact on Q. serrata. Total biomass significantly declined at WS-treated seedlings in all species. WS resulted in a smaller SLA than WW in all species. The SP of WS-treated seedlings of Q. acutissima and B. schmidtii significantly decreased, whereas it increased significantly with time in Q. serrata. Larger vessels (i.e., >100 to ≤ 130) were more frequent at WS for Q. acutissima and B. schmidtii, whereas smaller vessels (i.e., >40 to ≤ 90) were more frequent at WS than at WW for Q. serrata after 8 weeks. Tylosis was more frequent at WS than WW for Q. serrata and B. schmidtii at eighth week. WS seedlings showed lower gs, Ci, and RWC compared with WW-treated ones in Q. acutissima and B. schmidtii. TSS concentration was also higher at WS-treated seedlings in two Quercus species. Overall, principal component analysis (PCA) showed that SLA and SP are associated with WS seedlings of Q. serrata and B. schmidtii and the tylosis frequency, TSS, and VD are associated with WS seedlings of Q. acutissima. Therefore, water-stressed plants from all species responded positively to water stress with increasing experimental duration and stress intensity, and that is largely explained by morpho-anatomical traits and soluble sugar concentration. The present study should enhance our understanding of drought-induced tree growth and short-term tree-seedling responses to drought.

Published

2021

13. Prioritizing Choices in the Conservation of Flora and Fauna: Research Trends and Methodological Approaches

Author

Jonathan O. Hernandez, Inocencio E. Buot, and Byung Bae Park

Subjects

bio-ecological criteria, conservation priority, flora and fauna, multiple-species approach, species distribution, species richness, Agriculture

Abstract

Here, we synthesized the research trends in conservation priorities for terrestrial fauna and flora across the globe from peer-reviewed articles published from 1990 to 2022, following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Results showed India to have the highest number of studies (i.e., 12) about the topic. Contrarily, most of the megadiverse and biodiversity hotspot countries have only 1–3 studies. Flora studies are more documented than faunal studies. The bio-ecological attributes are the most frequently used criteria for prioritizing choices in the conservation of fauna (i.e., 55.42%) and flora species (i.e., 41.08%). The climatic/edaphic and the taxonomic/genetic variables for flora had the lowest frequency (i.e.,

Published

2022

14. Effects of three biomaterials mixed with growing media on seedling quality of Prunus sargentii

Author

Aung Aung, Woo Bin Youn, Jeong Min Seo, Huong Thi Thuy Dao, Si Ho Han, Min Seok Cho, and Byung Bae Park

Subjects

Biomaterials, mixed ratio, mushroom sawdust, pine bark, rice husk, seedling quality index, Forestry, SD1-669.5

Abstract

Quality of produced seedlings relies mainly on the substrate on which it grows and develops. In this study, three common biomaterials – pine bark, carbonized rice husk and mushroom sawdust, were mixed with growing media in two ratios (10% and 20%) to assess their effects on growth and seedling quality of Prunus sargentii seedlings in containerized production system. Generally, 10% pine bark treatment showed the highest results among others in some parameters of seedling growth – height and root collar diameter. For total biomass, 10% rice husk treatment was highest, followed by 10% pine bark treatment. Seedling quality index at 10% rice husk treatment resulted highest (24% increase compared to control) followed by 10% pine bark treatment (20% increase compared to control). Our results suggested that both rice husk and pine bark can be used in 10% mixed ratio to growing media to gain the qualified P. sargentii seedlings in forest nurseries, which in turn, will help to establish successful reforestation in the field.

Published

2019

15. The Leaf Trichome, Venation, and Mesophyll Structural Traits Play Important Roles in the Physiological Responses of Oak Seedlings to Water-Deficit Stress

Author

Jonathan O. Hernandez and Byung Bae Park

Subjects

drought stress, drought tolerance, oak species, starch reserves, stomatal conductance, water use efficiency, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

In this study, we investigated the effects of water-deficit stress on the leaf anatomical traits, physiological traits, and stem starch content in Quercus acutissima Carruth and Quercus serrata Murray by subjecting their seedlings to well-watered (WW) and water-deficit stress (WS) treatments. The water stress-induced changes in trichome density, trichome-to-stomata ratio, mesophyll thickness, vein density, vein distance, vein loopiness, vessel diameter, transpiration (E), stomatal conductance (gs), water use efficiency (WUE), and starch content were analyzed between two time points. While trichome density did not vary between treatments in Q. acutissima, it dramatically increased in Q. serrata (62.63–98.96 trichomes mm−2) at the final week. The WS-treated seedlings had a thicker palisade mesophyll (162.85–169.56 µm) than the WW-treated samples (118.56–132.25 µm) in both species. The vein density and loopiness increased significantly in the WS-treated Q. serrata seedlings. Small-sized vessels (10–50 µm) were more frequent in the WS than the WW in Q. serrata. The E, gs, WUE, and starch content declined significantly in the WS-treated seedlings compared with WW-treated samples in both species. Further, principal component analysis revealed significant relationships between anatomical and physiological traits, particularly in the WS-treated seedlings of Q. serrata. The coordinated changes in leaf anatomical traits, physiological traits, and stem starch content indicate an important role in the survival of Q. acutissima and Q. serrata seedlings in water-deficit stress environments, although Q. serrata may show higher survivability under prolonged water stress than Q. acutissima.

Published

2022

16. Tree Species Composition and Forest Community Types along Environmental Gradients in Htamanthi Wildlife Sanctuary, Myanmar: Implications for Action Prioritization in Conservation

Author

Myo Min Latt and Byung Bae Park

Subjects

edaphic factors, forest communities, Htamanthi, Myanmar, soil hardness, species diversity, Botany, QK1-989

Abstract

The identification of forest community types is essential for prioritizing choices and targets in species and community conservation purposes amid climate change impacts on forest community dynamics. Here, we determined the tree species composition, species diversity, and the forest community types across contrasting topographic and edaphic conditions in Htamanthi Wildlife Sanctuary (HWS), Myanmar. All tree species with diameter at breast height (DBH) ≥10 cm were recorded in 66 plots (625 m2), from which the species diversity, density, frequency, dominance, and importance value (IV) of each tree species were measured. The soil hardness (Hd), bulk density (BD), moisture content (MC), organic matter content (OM), texture, pH, total N, and available P, K, Ca, Na, and Mg concentrations were also analyzed. The elevation (ELV) and slope (SLP) were also measured as the topographic factors. Cluster analysis resulted in five distinct forest communities and the soil Ca, Mg, clay proportion, soil hardness, and elevation were the major influencing factors. The species diversity in HWS ranged from low to very high relative values, with 209 tree species belonging to 119 genera and 55 families. Identification of these community types and understanding the diversity levels and major factors influencing the community structure may play a key role in the planning, prioritization, and implementation of species and community conservation strategies amid the unpredictable impacts of climate change on forest community dynamics.

Published

2022

17. Root Biomass Distribution of Populus sibirica and Ulmus pumila Afforestation Stands Is Affected by Watering Regimes and Fertilization in the Mongolian Semi-arid Steppe

Author

Batkhuu Nyam-Osor, Ser-Oddamba Byambadorj, Byung Bae Park, Mattia Terzaghi, Gabriella Stefania Scippa, John A. Stanturf, Donato Chiatante, and Antonio Montagnoli

Subjects

siberian poplar, siberian elm, land degradation and desertification, forest shelterbelt, restoration, tree roots, Plant culture, SB1-1110

Abstract

Desertification of the semi-arid steppe of Mongolia is advancing very rapidly, motivating afforestation efforts. The “Green Belt” joint project (Government of Mongolia and Republic of Korea), which aims to mitigate soil degradation and develop agroforestry activities through the planting of a forest shelterbelt, is one such response. In these plantations, tree growth has been supported by different watering regimes (no watering, 2, 4, and 8 L h−1) and by two types of soil fertilization (NPK and Compost). The present paper analyses the effect of these techniques on soil chemistry and root biomass partitioning of Populus sibirica (Horth ex Tausch) and Ulmus pumila (L.) tree species. In July 2019, at the plantation site in Lun Soum, Tuv province (Mongolia), six trees were excavated by hand in each treatment, the root system was divided into taproot and five diameter classes (0–2; 2–5; 5–10; 10–20; > 20 mm), and the biomass was measured. Soil organic matter, macronutrients, and pH were also measured. The addition of fertilizers in the long-term did not enhance the soil chemical properties. The build-up of root biomass in both species correlated positively with increasing levels of the watering, while the application of fertilizers led to root growth suppression. For most of the root classes and both species, an irrigation level of 4 L h−1 was sufficient to yield the highest biomass and could be recommended for afforesting the semi-arid steppe of Mongolia. The root biomass of P. sibirica was more dependent on the watering regimes and of U. pumila was more negatively influenced by the application of fertilizers, indicating that U. pumila, due to the its lower water need, could be suitable for afforesting semi-arid environments. Our experiments suggest that afforestation practices in the semi-arid steppe of Mongolia should be supported by a prior analysis of plants' needs, soil type, dose, and type of fertilizers to be applied. Knowledge of the root response to the supporting techniques is necessary for choosing the best one for the plantation and, thus, to develop a sustainable and successful strategy to restore these degraded lands.

Published

2021

18. Effects of Torrefied Wood Chips and Vermicompost on Tree Growth and Weed Biomass: Implications for the Sustainable Management of Salt-Affected Reclaimed Lands

Author

Ji Young An, Aung Aung, Jonathan Ogayon Hernandez, Jeong Min Seo, Si Ho Han, and Byung Bae Park

Subjects

afforestation, organic fertilizer, Populus euramericana, reclamation, soil amendments, weed control, Agriculture

Abstract

A harsh environment, slow tree growth, nutrient deficiencies, and competition between trees and weeds can impede forest establishment on reclaimed lands. We investigated the effects of torrefied wood chips (TWC) and vermicompost (VC) soil amendments on the growth of Populus euramericana Guinier, weed biomass, and soil chemical properties on reclaimed land in Saemangeum. The 2.5 Mg ha−1 and 5.0 Mg ha−1 TWC had a similar effect on tree diameter and height growth (i.e., 2.5 = 5.0 > 0 TWC) and tended to have similar, higher effect on the total biomass of P. euramericana than the 0 Mg ha−1. The 2.5 Mg ha−1 TWC resulted in a significantly larger root biomass than the 5.0 Mg ha−1 TWC. The weed biomass was significantly larger at the 2.7 Mg ha−1 VC (i.e., 730.5–810.5 g m−2) than the control (605.1–610.6 g m−2), but VC alone was not effective for tree growth and soil amelioration. The TWC had no effect on weed biomass. Thus, the TWC and VC had contrasting effects on tree growth and weed biomass when they were used as soil amendments on salt-affected reclaimed land. VC application may promote weed proliferation, whereas TWC application may potentially increase the growth of P. euramericana and control weed growth on reclaimed lands. Our results enhance the existing knowledge on tree and weed responses to torrefied wood chips and vermicompost amendments for the sustainable management of salt-affected reclaimed lands.

Published

2022

19. Growth of Deciduous and Evergreen Species in Two Contrasting Temperate Forest Stands in Korea: An Intersite Experiment

Author

Byung Bae Park, Youngtak Ko, Jonathan O. Hernandez, Ser-Oddamba Byambadorj, and Si Ho Han

Subjects

coniferous forest, broadleaved forest, Fraxinus rhynchophylla, light availability, seedling community, shade-tolerant, Botany, QK1-989

Abstract

Poor seedling establishment and growth can be a result of the limitation of light and soil resources in the forest understory. Here, we investigate the interacting effects of stand and soil characteristics on the seedling growth of deciduous species (Fraxinus rhynchophylla and Zelkova serrata) and evergreen species (Pinus koraiensis) through a 3-year intersite experiment in two contrasting forest stands. Seedlings were grown in both oak and pine stands using two different soil types, i.e., gray-brown forest soil (GB) and red-yellow forest soil (RY). Soil physicochemical properties, light intensity, tree-seedling height, root-collar diameter (RCD), and biomass growth were analyzed between two stands and/or soil types. Light availability was generally more abundant in the pine stand (mean: 1074.08 lx or 20.25%) than the oak stand (mean: 424.33 lx or 9.20%) throughout the year. The height and RCD growth of fast-growing and deciduous F. rhynchophylla and Z. serrata were higher in the pine than in the oak stand, particularly in GB soil. The growth of the slow-growing and evergreen P. koraiensis was not affected by the forest stand, except for its higher root growth in the oak stand and RY soil. Therefore, abundant light availability can enhance the growth and seedling establishment of F. rhynchophylla and Z. serrata in the pine-stand understory. Contrarily, P. koraiensis may be planted in the understory regardless of light condition, but with a slower growth rate.

Published

2022

20. Biochar effects on the seedling quality of Quercus serrata and Prunus sargentii in a containerized production system

Author

Aung Aung, Si Ho Han, Woo Bin Youn, Loth Meng, Min Seok Cho, and Byung Bae Park

Subjects

Afforestation, charcoal, fertilization, quality index, seedling growth, Forestry, SD1-669.5

Abstract

Biochars are used to improve soil quality and crop productivity as well as to increase carbon sequestration in soil. However, it is important to identify the characteristics of biochar prior to its application because of the positive and negative effects on soil and crop productivity. The purpose of this study was to investigate the effects of charcoals on the growth and seedling quality of Quercus serrata and Prunus sargentii in a containerized seedling production system. Two of the charcoals used in our research were from oak tree; one produced at 1200 °C and the other at 700 ∼ 800 °C, and a bamboo charcoal produced at about 800 °C. Three charcoals were mixed with artificial soil (peat moss, perlite, and vermiculite with a ratio of 1:1:1 (v/v/v)), and applied commercial fertilizer at two concentrations; 0.5 and 1.0 g L−1. Growth parameters, such as height, root collar diameter, and dry weight, were decreased in charcoal treatments compared to control. However, charcoal treatments significantly increased the quality index of seedlings by 8.3% in Q. serrata and by 19.9% in P. sargentii. Our results suggested that charcoal can be applied to improve seedling quality in the containerized Q. serrata and P. sargentii seedling production system.

Published

2018

21. Effects of Irrigation and Fertilization on the Morphophysiological Traits of Populus sibirica Hort. Ex Tausch and Ulmus pumila L. in the Semiarid Steppe Region of Mongolia

Author

Ser-Oddamba Byambadorj, Byung Bae Park, Jonathan O. Hernandez, Enkhchimeg Tsedensodnom, Otgonsaikhan Byambasuren, Antonio Montagnoli, Donato Chiatante, and Batkhuu Nyam-Osor

Subjects

arid and semiarid, afforestation, desertification, drought effects, compost fertilizer, Botany, QK1-989

Abstract

Desertification is impeding the implementation of reforestation efforts in Mongolia. Many of these efforts have been unsuccessful due to a lack of technical knowledge on water and nutrient management strategies, limited financial support, and short-lived rainfall events. We investigated the effects of irrigation and fertilization on the morphophysiological traits of Populus sibirica Hort. Ex Tausch and Ulmus pumila L. and to suggest irrigation and fertilization strategies for reforestation. Different irrigation and fertilizer treatments were applied: no irrigation, 2 L h−1, 4 L h−1, and 8 L h−1 of water; no fertilizer, 2 L h−1 + NPK, 4 L h−1 + NPK, and 8 L h−1 + NPK; and no compost, 2 L h−1 + compost, 4 L h−1 + compost, and 8 L h−1 + compost. The leaf area (LA) and specific leaf area (SLA) of both species responded positively to 4 and 8 L h−1. Results also showed that the addition of either NPK or compost to 4 or 8 L h−1 irrigation resulted in a higher LA, SLA, and leaf biomass (LB). Total chlorophyll content decreased with irrigation in both species. The same pattern was detected when a higher amount of irrigation was combined with fertilizers. Lastly, we found that both diurnal and seasonal leaf water potential of plants grown in 4 or 8 L h−1 were significantly higher than those of plants grown in control plots. Therefore, 4 or 8 L h−1 with either NPK or compost has shown to be the optimal irrigation and fertilization strategy for the species in an arid and semiarid region of Mongolia. Results should provide us with a better understanding of tree responses to varying amounts of irrigation with or without fertilizer in pursuit of sustainable forest management in arid and semiarid ecosystems.

Published

2021

22. Effects of Shade and Planting Methods on the Growth of Heracleum moellendorffii and Adenophora divaricata in Different Soil Moisture and Nutrient Conditions

Author

Woo Bin Youn, Jonathan Ogayon Hernandez, and Byung Bae Park

Subjects

fertilization, interspecific competition, planting methods, shade, plant growth, soil moisture, Botany, QK1-989

Abstract

In this study, the interacting effects of shade and planting methods on the growth and competitive ability of two understory plants Heracleum moellendorffii Hance and Adenophora divaricata Franch. & Sav. were investigated under different soil moisture and nutrient conditions. One-year-old seedlings were subjected to different light levels (0%, 35%, and 55% shade) and planting methods (monoculture and mixed) under contrasting soil moisture (1.2 L/m2 and 2.3 L/m2 of water) and soil nutrient conditions (unfertilized and fertilized). Here, shading significantly improved the height growth of H. moellendorffii (10–20 cm increase) in unfertilized and fertilized plots and at high soil moisture conditions. Contrarily, A. divaricata seedlings planted singly at full sunlight yielded a higher aboveground biomass growth (8–17 g plant−1), compared with those shaded and intercropped seedlings (0.9–3.9 g plant−1). The increased competitiveness of H. moellendorffii suppressed the growth of A. divaricata across different light conditions when planted together. The amount of light, soil moisture, and nutrients and their interactions significantly affected the growth of the seedlings, resulting in asymmetric interspecific competition between the two species. Results provide us with a better understanding of the environmental factors affecting plant growth for forest farming in the understory.

Published

2021

23. The Use of Deep Container and Heterogeneous Substrate as Potentially Effective Nursery Practice to Produce Good Quality Nodal Seedlings of Populus sibirica Tausch

Author

Byung Bae Park, Si Ho Han, Jonathan O. Hernandez, Ji Young An, Batkhuu Nyam-Osor, Mun Ho Jung, Peter Sang-Hoon Lee, and Sang Ick Lee

Subjects

afforestation, arid, container size, nursery practice, root to stem ratio, seedling root traits, Plant ecology, QK900-989

Abstract

Nursery practices are considered major factors influencing seedling quality, which are likely to be maintained in the early establishment phase in the field. Here, we investigated the effects of container depth and substrate heterogeneity on the growth of Populus sibirica nodal seedlings to suggest an effective nursery practice for producing quality seedlings appropriate for forest establishment in a dry environment. We used two substrate heterogeneities (homogeneous and heterogeneous) and two container depth treatments (30 and 60 cm). Variations in root collar diameter (RCD) growth, height growth, stem and root biomass, root to stem ratio, and root mass in the first 15 cm depth from the soil surface across the treatments were computed. Results revealed that both substrate heterogeneity and container depth had no significant effects on the RCD and height growth of P. sibirica seedlings but significantly improved their root and stem biomass. Seedlings in the 60 cm containers generally accumulated higher root biomass than those in the 30 cm containers. There was an interaction effect of container depth and substrate heterogeneity treatments on root and total dry mass, such that seedlings grown in the 60 cm container using heterogeneous substrate resulted in the highest root and total biomass. Analyses of proportional root growth in the upper 15 cm of the containers compared to the total indicated that both the main effects of deeper containers (60 cm) and heterogeneous substrate have fewer roots at this depth, indicating a greater root density in the bottom of the deeper containers. Therefore, deeper containers and heterogeneous substrate may be used as an effective nursery practice to produce seedlings with root traits potentially suitable for harsh conditions, such as arid and semi-arid environments. However, further studies using other seedling morphological traits in conjunction with field-trial tests are needed for a definitive assessment of the effectiveness of deeper containers and heterogeneous substrate in producing good quality seedlings potentially suitable in a dry environment.

Published

2021

24. Optimal Irrigation Regime for Woody Species Potentially Suitable for Effective and Sustainable Afforestation in the Desert Region of Mongolia

Author

Ser-Oddamba Byambadorj, Byung Bae Park, Jonathan O. Hernandez, Narantugs Dulamsuren, Zoljargal Sainbuyan, Oyuntugs Altantugs, Khulan Sharavdorj, In Kyeong Seong, and Nyam-Osor Batkhuu

Subjects

arid and semiarid, desertification, Elaeagnus moorcroftii, Green belt plantation, morpho-physiology, Tamarix ramosissima, Agriculture

Abstract

Long-term studies on plant response mechanisms to different irrigation regimes will provide a better understanding of the survivability and establishment of plant communities in a desert environment. Thus, across 10 years, we regularly investigated the effects of the rainfall (control), rainfall + 4 L h−1, rainfall + 8 L h−1, and rainfall + 12 L h−1 irrigation regimes on the growth and leaf morpho-physiology of Tamarix ramosissima Ledeb., Ulmus pumila L., Elaeagnus moorcroftii Wall. ex Schltdl., and Hippophae rhamnoides L. to suggest an optimal irrigation regime for each woody species for effective and sustainable afforestation in Mongolia. We measured the root collar diameter (RCD), annual height growth, survivability, leaf area (LA), specific leaf area (SLA), leaf biomass (LB), total chlorophyll concentration, and predawn (ψp) and midday (ψm) leaf water potentials across the treatments and species. Results showed that trees grown at 12 L h−1 grew taller per year and generally resulted in a higher SLA, but generally resulted in a lower survival rate compared with those in the other treatments in all species. Total chlorophyll content was higher in trees grown under 4 and/or 8 L h−1, particularly for T. ramosissima and E. moorcroftii. Lastly, leaf water potentials were found more negative for trees subjected to 4 L h−1, especially in T. ramosissima and U. pumila, but still resulted in a higher survival rate and LB compared with 12 L h−1. H. rhamnoides showed higher survivability at 8 and/or 12 L h−1 than at 4 L h−1. Therefore, we suggest 4 L h−1 to be the optimal irrigation regime for irrigating T. ramosissima, U. pumila and E. moorcroftii, and 8 and/or 12 L h−1 for H. rhamnoides. Our findings are relevant to ensuring the sustainability of afforestation programs in arid and semiarid landscapes in Mongolia.

Published

2021

25. Research Trends and Methodological Approaches of the Impacts of Windstorms on Forests in Tropical, Subtropical, and Temperate Zones: Where Are We Now and How Should Research Move Forward?

Author

Jonathan O. Hernandez, Lerma S.J. Maldia, and Byung Bae Park

Subjects

experimental forest, hurricane, observational study, PRISMA, systematic review article, tree mortality, Botany, QK1-989

Abstract

Windstorm is one of the destructive natural disturbances, but the scale-link extent to which recurrent windstorms influenced forests ecosystems is poorly understood in a changing climate across regions. We reviewed the synergistic impacts of windstorms on forests and assessed research trends and methodological approaches from peer-reviewed articles published from 2000 to 2020 in tropical (TRF), subtropical (SUF), and temperate (TEF) forests/zones, based on the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Overall, the majority of the reviewed studies were conducted in TRF (i.e., 40%), intermediate in SUF (i.e., 34%), and the lowest in TEF (i.e., 26%). Among the four levels of biological organization, the species-population and community-ecosystem levels had the highest number of study cases, while the molecular-cellular-individual and landscape levels had the lowest study cases in all forest types. Most of the articles reviewed dealt largely on tree mortality/survival and regeneration/succession for TRF, tree mortality/survival and species composition/richness/diversity for SUF, and stem density, gap dynamics, and regeneration/succession for TEF. However, research on the effects of windstorms on mycorrhizal symbioses, population genetics, and physiological adaptation, element fluxes via litterfall, litter decomposition, belowground processes, biological invasion, and tree health are less common in all forest types. Further, most of the studies were conducted in permanent plots but these studies mostly used observational design, while controlled studies are obviously limited. Consequently, more observational and controlled studies are needed on the topic reviewed, particularly studies at the molecular-cellular-individual and landscape levels, to help inform forest management decision-making about developing sustainable and resilient forests amid climate change.

Published

2020

26. Comparison of Allometric Equation and Destructive Measurement of Carbon Storage of Naturally Regenerated Understory in a Pinus rigida Plantation in South Korea

Author

Si Ho Han and Byung Bae Park

Subjects

aboveground biomass, destructive method, diameter at breast height, understory species, Plant ecology, QK900-989

Abstract

The forest understory plays an important role in the carbon and nutrient cycling and forest stability, but cost-efficient quantification of its biomass remains challenging. Most of the existing biomass allometric equations have been developed and designed only for mature forest trees (i.e., Diameter at breast height (DBH) ≥ 10 cm), and those for trees with DBH less than 10 cm are not readily available. In this study, we compared the biomass by plant component (i.e., foliage, branch, and stem) measured by a destructive method with those estimated by the existing biomass allometric equations for understory trees with DBH less than 10 cm in a Pinus rigida plantation. We also developed an allometric biomass equation for the identified understory tree species, namely, Quercus variabilis, Quercus acutissima, Quercus mongolica, Quercus serrata, and Carpinus laxiflora. The estimated biomass using allometric equations for foliage, branch, and stem was lower than the values obtained using the destructive method by 64%, 41%, and 18%, respectively. The biomass allometric equations developed in this study showed high coefficients of determination (mean R2 = 0.970) but varied depending on species and tree part (range: 0.824–0.984 for foliage, 0.825–0.952 for branch, and 0.884–0.999 for the stem, respectively). The computed biomass of the understory vegetation was 22.9 Mg ha−1, representing 12.0% of the total biomass of the P. rigida plantation. The present study demonstrates that understory trees with DBH less than 10 cm account for a considerable portion of carbon stock in forest ecosystems, and therefore suggests that more biomass allometric equations should be optimized for small-DBH trees to improve forest carbon stock estimation.

Published

2020

27. Carbon and Nutrient Inputs by Litterfall in Evergreen and Deciduous Forests in Korea

Author

Byung Bae Park, Afroja Rahman, Si Ho Han, Woo Bin Youn, Hwa Ja Hyun, Jonathan Hernandez, and Ji Young An

Subjects

litter production, nutrient flux, quercus acutissima carruth, quercus glauca thunb., gotjawal, Plant ecology, QK900-989

Abstract

Knowledge about carbon and nutrient fluxes by litterfall is important for understanding nutrient cycling in geologically unique ecosystems. However, the determination of forest litterfall production patterns is difficult due to many biophysical factors influencing the process. In this study, we (1) quantified the litterfall production and carbon and nutrient fluxes in warm-temperate evergreen forest stands in Jeju Gotjawal and (2) compared these values to those of a typical cool-temperate deciduous forest stand by forest types and climate differences. Litterfall from evergreen broadleaved forests at Cheongsu (CS) and Seonheul (SHb), a mixed forest at Seonheul (SHm) in Jeju Gotjawal, and a deciduous broadleaved forest at Chungnam National University Forest (CNU) was collected for a full two years using litter traps. Samples were sorted into leaves, twigs, barks, seeds, and unidentified materials, and then weighed and measured for C, N, P, K, Ca, and Mg fluxes by litterfall. Results showed that the mean annual litterfall (846.3 g m−2, average of CS, SHb, and SHm) at Jeju Gotjawal was similar to that of CNU (885.5 g m−2), but varied by site in Jeju Gotjawal: CS (933.1 g m−2) was significantly higher than the average of SHb and SHm (802.9 g m−2). Seasonal patterns of litterfall production differed by forest types; evergreen broadleaved forests showed a bimodal peak in fall and spring while deciduous broadleaved forests showed a unimodal peak in fall. Jeju Gotjawal had significantly higher total macronutrient concentrations and contents (except for K) than CNU and they also varied by site in Jeju Gotjawal: CS had higher N, P, Ca, and Mg contents than SHb and SHm. We conclude that litterfall production and nutrient fluxes differed by forest stand as influenced by forest types and climate. Further, our findings are important for understanding carbon and nutrient dynamics in the geologically unique ecosystem of Jeju Gotjawal and other areas with similar characteristics.

Published

2020

28. Litterfall production and fine root dynamics in cool-temperate forests.

Author

Ji Young An, Byung Bae Park, Jung Hwa Chun, and Akira Osawa

Subjects

Medicine, Science

Abstract

Current understanding of litterfall and fine root dynamics in temperate forests is limited, even though these are the major contributors to carbon and nutrient cycling in the ecosystems. In this study, we investigated litterfall and fine root biomass and production in five deciduous and four coniferous forests at the Gwangneung Experimental Forest in Korea. We used ingrowth cores to measure fine root production and root turnover rate. The litterfall was separated into leaves, twigs, and others, and then leaves were further separated according to species. Annual litterfall mass was not significantly different between the years, 360 to 651 g m-2 in 2011 and 300 to 656 g m-2 in 2012. Annual fine root (

Published

2017

29. Seasonal Pattern of Decomposition and N, P, and C Dynamics in Leaf litter in a Mongolian Oak Forest and a Korean Pine Plantation

Author

Jaeeun Sohng, Ah Reum Han, Mi-Ae Jeong, Yunmi Park, Byung Bae Park, and Pil Sun Park

Subjects

temperate deciduous forest, mixed leaf litter effect, soil nutrients, leaf litter nutrients, mineralization, Plant ecology, QK900-989

Abstract

Distinct seasons and diverse tree species characterize temperate deciduous forests in NE Asia, but large areas of deciduous forests have been converted to conifer plantations. This study was conducted to understand the effects of seasons and tree species on leaf litter decomposition in a temperate forest. Using the litterbag method, the decomposition rate and nitrogen, phosphorous, and carbon dynamics of Mongolian oak (Quercus mongolica), Korean pine (Pinus koraiensis), and their mixed leaf litter were compared for 24 months in a Mongolian oak stand, an adjacent Korean pine plantation, and a Mongolian oak—Korean pine mixed stand. The decomposition rates of all the leaf litter types followed a pattern of distinct seasonal changes: most leaf litter decomposition occurred during the summer. Tree species was less influential on the leaf litter decomposition. The decomposition rates among different leaf litter types within the same stand were not significantly different, indicating no mixed litter effect. The immobilization of leaf litter N and P lasted for 14 months. Mongolian oak leaf litter and Korean pine leaf litter showed different N and P contents and dynamics during the decomposition, and soil P2O5 was highest in the Korean pine plantation, suggesting effects of plantation on soil nutrient budget.

Published

2014

30. Metabolic Analysis of Four Cultivars of Liriope platyphylla

Author

Chang Ha Park, Abubaker Mohammed Awad Morgan, Byung Bae Park, Sook Young Lee, Sanghyun Lee, Jae Kwang Kim, and Sang Un Park

Subjects

Liriope platyphylla, Liliaceae, spicatoside A, steroidal saponins, phenylpropanoid, Microbiology, QR1-502

Abstract

Liriope platyphylla (Liliaceae), a medical plant distributed mainly in China, Taiwan, and Korea, has been used traditionally for the treatment of cough, sputum, asthma, and neurodegenerative diseases. The present study involved the metabolic profiling of this plant and reports spicatoside A accumulation in four different varieties of L. platyphylla (Cheongyangjaerae, Seongsoo, Cheongsim, and Liriope Tuber No. 1) using HPLC and gas chromatography time-of-flight mass spectrometry (GC–TOFMS). A total of 47 metabolites were detected in the different cultivars using GC–TOFMS-based metabolic profiling. The resulting data were subjected to principal component analysis (PCA) for determining the whole experimental variation, and the different cultivars were separated by score plots. Furthermore, hierarchical clustering, Pearson’s correlation, and partial least-squares discriminant analyses (PLS-DA) were subsequently performed to determine significant differences in the various metabolites of the cultivars. The HPLC data revealed that the presence of spicatoside A was detected in all four cultivars, with the amount of spicatoside A varying among them. Among the cultivars, Liriope Tuber No. 1 contained the highest amount of spicatoside A (1.83 ± 0.13 mg/g dry weight), followed by Cheongyangjaerae (1.25 ± 0.01 mg/g dry weight), Cheongsim (1.09 ± 0.04 mg/g dry weight), and Seongsoo (1.01 ± 0.02 mg/g dry weight). The identification of spicatoside A was confirmed by comparing the retention time of the sample with the retention time of the standard. Moreover, the Cheongsim cultivar contained higher levels of phenolic compounds—including vanillic acid, quinic acid, gallic acid, chlorogenic acid, caffeic acid, and benzoic acid—than those of the other two cultivars. On the other hand, the levels of amino acids were higher in the Seongsoo cultivar. Therefore, this study may help breeders produce new varieties with improved nutraceutical and nutritional qualities.

Published

2019

31. Precision and Performance Evaluation of Accelerated Aging System for DC TP Power Cables

Author

Seung-Won Lee, Jin-Wook Choe, Ik-Su Kwon, Byung-Bae Park, and Hae-Jong Kim

Subjects

General Computer Science, General Engineering, General Materials Science, Electrical and Electronic Engineering

Published

2023

32. Morphoanatomy and physiology of Swietenia macrophylla in different light environments: Insights into its invasive ability in the Philippines.

Author

AGOTO JR, REGULOS NOLASCO, HERNANDEZ, JONATHAN OGAYON, and BYUNG BAE PARK

Published

2024

33. Expression analysis of diosgenin pathway genes and diosgenin accumulation in fenugreek sprouts after exposure to copper sulfate

Author

Do Yeon Kwon, Ramaraj Sathasivam, Yeon Bok Kim, Haeng-Hoon Kim, Sang Un Park, and Byung Bae Park

Subjects

Plant Science, Ecology, Evolution, Behavior and Systematics

Abstract

Trigonella foenum-graecum L. is an annual herb belonging to the family Fabaceae commonly called Fenugreek. It is rich in various secondary metabolites such as alkaloids, flavonoids, phenolic compounds, and steroidal saponins. In recent years, diosgenin has much attention in the cosmetic, functional food, and pharmaceutical industries. In this study we aimed to examine the effect of different concentrations of copper sulfate (CuSO4) on growth, diosgenin biosynthetic (DB) gene expression, and diosgenin accumulation in T. foenum-graecum sprouts. Results showed that the seed germination, fresh weight, shoot length, and root length were gradually decreased with increasing the CuSO4 concentrations. In contrast, the expression level of DBGs i.e., TfSQS, TfSQLE, TfCAS, and TfSTRL were gradually upregulated with increasing the CuSO4 concentrations. Among all those tested concentrations, the expression levels of all those genes were significantly higher in 0.5 mM CuSO4 treated sprouts. The highest expression level was obtained in the TfCAS gene, which was 3.25-fold higher than the unexposed sprouts. The diosgenin content was significantly influenced in the CuSO4 exposed sprouts. The highest diosgenin content was achieved in the 5.0 mM followed by 1.0, 10.0, and 0.5 mM CuSO4 exposed concentrations, with a reduction of 41%, 39%, 36%, and 35%, respectively. From these results, it is shown that exposure of fenugreek sprout to CuSO4 is one of the suitable strategies to enhance the accumulation of diosgenin content.

Published

2022

34. Politics of urban cultural preservation and regeneration: the case of South Korea and Taiwan

Author

Byung-Bae Park, Tse-Kang Leng, and Kuan-Hsuan Wu

Subjects

Cultural Studies, Sociology and Political Science, Development

Published

2022

35. Leaf morpho-physiological traits of Populus sibirica and Ulmus pumila in different irrigation regimes and fertilizer types.

Author

Byambadorj, Ser-Oddamba, Hernandez, Jonathan Ogayon, Lkhagvasuren, Sarangua, Ge Erma, Sharavdorj, Khulan, Byung Bae Park, and Batkhuu Nyam-Osor

Subjects

POLITICAL systems, FOREST restoration, IRRIGATION, GROWING season, CHLOROPHYLL spectra

Abstract

Background. The impacts of climate change, such as increased soil dryness and nutrient deficiency, highlight the need for environmentally sustainable restoration of forests and groundwater resources. However, it is important to consider that extensive afforestation efforts may lead to a depletion of groundwater supply due to higher evapotranspiration rates, exacerbating water scarcity issues. Consequently, we conducted a study to examine how the fast-growing tree species Populus sibirica (Horth ex Tausch) and Ulmus pumila (L.) respond morpho-physiologically to varying watering regimes and types of fertilizers, aiming to better understand their specific water and nutrient requirements. Methods. We used two-year-old nursery-growth seedlings (N D512) of P. sibirica and U. pumila with initial root collar diameter (RCD) and the height of 0.51 ± 0.02 mm and 68 ± 2.94 cm and 0.33 ± 0.01 mm and 51 ± 1.14 cm, respectively. The leaf area (LA), specific leaf area (SLA), chlorophyll concentration, stomatal conductance (gs), chlorophyll fluorescence, and predawn and midday leaf water potential were measured across treatments. Four different irrigation regimes and two different fertilizer types were applied: no irrigation (control, 0 L h1), 2 L h1 = 0.25 mm m2, 4 L h1 = 0.5 mm m2, 8 L h1 = 1.0 mm m2 and 120 g and 500 g tree1 of NPK and compost (COMP). Twelve plots (600 m2) were established in the study site for each species and treatments. Results. During the first growing season (2021), the LA of P. sibirica was larger in the 4≥8 L h1 without fertilizer, but it was smaller in the 4 L h+ COMP during the second growing season (2022). The 2 L h1 without fertilizer and 2 L h1 + NPK had larger LA compared with the control (CONT) for the first and second growing seasons, respectively, for U. pumila. P. sibirica seedlings at 4 L h1 without fertilizer had the highest SLA for 2021 and at 2 L h1 + NPK for 2022, whereas CONT and 4 L h1 had the highest SLA than the other treatments for 2021 and 2022 growing seasons, respectively, for U. pumila. The chlorophyll concentration of P. sibirica seedlings in the first year was generally higher in CONT, while the 2 L h1 without any fertilizer yielded a significantly higher chlorophyll concentration of U. pumila. Chlorophyll fluorescence parameters (PIABS and Fm) were generally lower in CONT with/without NPK or COMP for both species. TheCONTwith NPK/COMP generally had a higher gs compared with the other treatments in both experimental periods for U. pumila, whereas CONT and 2 L h1+ NPK-treated P. sibirica seedlings had a significantly greater gs during the first year and second year, respectively. The predawn and midday leaf water potentials of both species were generally the lowest in CONT, followed by 2 L h1+ NPK/COMP during the first growing season, but a different pattern was observed during the second growing season. Overall, the morpho-physiological traits of the two species were affected by watering and fertilizer treatments, and the magnitude of the effects varied depending on growing season, amount of irrigation, and fertilizer type, and their interactions. [ABSTRACT FROM AUTHOR]

Published

2023

36. Two New species of Impatiens (Balsaminaceae) from Myanmar

Author

MYO MIN LATT, NOBUYUKI TANAKA, and BYUNG BAE PARK

Subjects

Tracheophyta, Magnoliopsida, Balsaminaceae, Plant Science, Biodiversity, Plantae, Ecology, Evolution, Behavior and Systematics, Taxonomy, Ericales

Abstract

Impatiens yinyinkyii M.M.Latt, B.B.Park & Nob.Tanaka and I. horizontalis M.M.Latt, B.B.Park & Nob.Tanaka (Balsaminaceae) are described and illustrated. Those new species were discovered in Htamanthi Wildlife Sanctuary, northwestern Myanmar. Description, photographic data as well as the comparative characters with their similar species are provided. Impatiens yinyinkyii is similar to I. masonii Hook.f., but differs in having three dark purple blotches in center of flower, specifically at base of dorsal and upper petals of united petals. Impatiens horizontalis resembles I. stenantha Hook.f., I. prostrata Hook. f., I. repens Moon, I. procumbens Franch and I. reptans Hook. f. in having larger, glabrous and elliptic to lanceolate leaves, serrate margin with antrorse bristles, deeply bucciniform lower sepal, twisted spur with abruptly capitate tip, linear ovary, spheroid seed and finally uncommon conspicuous stout stem which is horizontally creeping.

Published

2023

37. Stage Structure and Population Persistence of Cypripedium japonicum Thunb., a Rare and Endangered Plants1a

Author

Sodam Kim, Sungwon Son, Dong-hyoung Lee, Byung-Bae Park, Ae-Ra Moon, Sang-Yong Kim, and Hwi-min Kim

Subjects

education.field_of_study, biology, Stage (stratigraphy), Population, Endangered species, Zoology, biology.organism_classification, education, Cypripedium japonicum, Persistence (computer science)

Published

2021

38. Measurement Conditions of Conduction Current for Diagnosis of HVDC Power Cables

Author

Seung-Won Lee, Ik-Su Kwon, Byung-Bae Park, Jin-Wook Choe, Jeon-Wook Cho, and Hae-Jong Kim

Published

2022

39. Effect of Pre-stressed Thermal Ageing and Electric Field during Measurement on Space Charge Distribution of HVDC Insulating Materials

Author

Ik-Su Kwon, Byung-Bae Park, Seong-Won Lee, Jin-Wook Choe, Jeon-Wook Cho, Hae-Jong Kim, and In-Sung Kim

Published

2022

40. Growth and nutrient responses of Betula platyphylla, Larix kaempferi, and Chamaecyparis obtusa to different application methods of solid compound fertilizer

Author

Jeong Min Seo, Huong Thi Thuy Dao, and Byung Bae Park

Subjects

Ecology, biology, Forestry, engineering.material, biology.organism_classification, Horticulture, Nutrient, Chamaecyparis, Larix kaempferi, engineering, Fertilizer, Application methods, Food Science, Betula platyphylla

Published

2021

41. Evaluation of Repeatability for the Measurement of DC Conductivity of HVDC XLPE Model Cables

Author

Jin-Ho Nam, Hae-Jong Kim, Hee-Suk Ryoo, Byung-Bae Park, Seung-Won Lee, Sang-Soo Oh, Jeonwook Cho, and Jang-Seob Lim

Subjects

Materials science, Transmission (telecommunications), Electric field, Direct current, Repeatability, Electrical and Electronic Engineering, Composite material, Conductivity, Thermal conduction, Conductor, Power (physics)

Abstract

Cross-linking polyethylene (XLPE) power cables are widely used as an excellent insulation material for high-voltage direct current (HVDC) transmission. For the design and operation of HVDC-based power cables, the conduction properties of XLPE insulation must be obtained. This study aimed to establish a highly reliable conductivity-measurement system that can diagnose the XLPE insulation of cables before and after aging by evaluating the repeatability of their conductivity. In this study, a conductivity-measurement circuit was constructed using the polarization-and-depolarization-current technique. Conductivity was measured according to the conductor temperature by using an applied electric field, and then the repeatability of the measured conductivity was evaluated using a statistical method. The experimental results show that the minimum repeatability was 6%, thereby demonstrating the establishment of a reliable conductivity-measurement system.

Published

2020

42. Leaf architecture and petiole anatomy of Philippine Dipterocarpus species (Dipterocarpaceae)

Author

Dennis E Pulan, Byung Bae Park, Inocencio E. Buot, Lerma Sj. Maldia, and Jonathan O. Hernandez

Subjects

Dipterocarpaceae, biology, Botany, Plant Science, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Dipterocarpus, Petiole (botany)

Abstract

The study investigated the leaf architecture and petiole anatomy of eight Dipterocarpus (Dipterocarpaceae) species growing in Mount Makiling Forest Reserve (MMFR) in the Philippines to delineate the species, especially during their non-flowering phase. Leaf and petiole samples from MMFR were examined following the manual on leaf architecture studies. Freehand technique was used to examine the stomata and petiole characters. A UPGMA phenogram was then generated to determine the relationships among Dipterocarpus species using 26 leaf and petiole characters. The most useful characters to delineate Dipterocarpus species are the presence of trichomes, the arrangement of vascular bundles (medullary and outer vascular bundles), areolation, fimbrial vein, and leaf size. Other characters viz., the laminar ratio, blade class, laminar shape, base shape, margin type, and intersecondary, and layers and shape of parenchyma and collenchyma cells were useful as unifying characters. Therefore, certain characters of the leaf architecture and petiole anatomy may be used as taxonomic markers to delineate and correlate the Dipterocarpus species in the Philippines particularly during the nonflowering phase of the species. However, further investigations using samples from the wild populations of the species and molecular techniques may be done to elucidate the taxonomic use of the characters presented in this study. Bangladesh J. Plant Taxon. 27(1): 1-14, 2020 (June)

Published

2020

43. The Effect of Different Watering Regimes on the Growth of Trees and Shrubs in Desert Regions of Mongolia

Author

Byung Bae Park, Akhmadi Khaulenbek, Ochirbat Batkhishig, Nyam-Osor Batkhuu, Lunten Janchivdorj, and Byambadorj Ser-Oddamba

Subjects

biology, growth, Tamarix, greenbelt, Hippophae rhamnoides, Introduced species, seedling, biology.organism_classification, irrigation, Ulmus pumila, Horticulture, lcsh:Biology (General), Afforestation, Armeniaca sibirica, Tree species, lcsh:QH301-705.5, Elaeagnus moorcroftii

Abstract

The selection of tree species resistant to drought, cold, salt and other natural and anthropogenic stressors is important for the success of afforestation processes especially when these take place in desert and semi-desert regions of Mongolia. The seven woody species (Tamarix ramosissima, Ulmus pumila, Elaeagnus moorcroftii, Hippophae rhamnoides, Caragana microphylla, Armeniaca sibirica, Amygdalus pedunculata) were grown under four different watering regimes and nine years of continuous monitoring conducted on the growth performances. All measured growth traits (root collar diameter, stem height, and survival rate) showed significant differences between treatments and species. The best performance of stem height and root collar diameter was observed in T. ramosissima and E. moorcroftii whereas A. pedunculata presented be lowest values. Ulmus pumila, E. moorcroftii and T. ramosissima showed the highest survival rate compared with all other species. However, control plants showed a 0% survival rate in 2016. Date presented here suggest that native species are characterized by the best adaptive characteristics compared to non-native species, which species are the best candidates to be used for afforestation processes of desert and semi-deserts areas.

Published

2020

44. Afforestation of Mongolian steppe: patterns of biomass partitioning in Populus sibirica and Ulmus pumila trees in response to management supporting measures

Author

Ser-Oddamba Byambadorj, Gabriella S. Scippa, Byung Bae Park, Anastazija Dimitrova, Tseepil Avirmed, Donato Chiatante, Antonio Montagnoli, and Batkhuu Nyam-Osor

Subjects

geography, C-sequestration, clasmometry, dry biomass, fertilization, irrigation regime, semi-arid, geography.geographical_feature_category, Steppe, chemistry.chemical_element, Plant Science, Biology, biology.organism_classification, Ulmus pumila, Atmosphere, chemistry, Agronomy, Afforestation, Biomass partitioning, Carbon, Ecology, Evolution, Behavior and Systematics

Abstract

Climate challenges impose the need for successful afforestation strategies which will increase the amount of carbon sequestered from the atmosphere. In practice, this means evaluation of suitable p...

Published

2022

45. Altitude and species identity drive leaf litter decomposition rates of ten species on a 2950 m altitudinal gradient in Neotropical rain forests

Author

Byung Bae Park, Go‐Eun Park, Bryan Finegan, Diego Delgado, Jimena Esquivel, and Fernando Casanoves

Subjects

leaf traits, tropical forest, Ecology, Jarava ichu, Rainforest, Plant litter, Tropical forest, simple exponential decay model, Decomposition, climate change, Altitude, Acalypha communis, carbon and nutrient cycling, home effect, Environmental science, Ecology, Evolution, Behavior and Systematics

Abstract

Identifying the environmental factors controlling litter decomposition is key to understanding the magnitude and rates of nutrient cycling in tropical forests, and how they may be influenced by climate variability and environmental change. We carried out a leaf litter translocation experiment in mature rain forest over a 2,520 m altitudinal gradient in Costa Rica. Leaf litter decomposition rates (k) of ten tree species, two dominant species from each ecosystem, plus two standard species, were calculated over 540 days in four life zones. k was lowest in montane with 0.83 per year and lower montane forests with 2.21 per year. k did not differ between lowland and premontane forests at 3.12 per year, in spite of the 3℃ difference of mean annual temperature between these life zones. k varied fourfold among species. Species decomposition rates ranked as follows, and were predictably related to leaf economic spectrum traits of the species: Acalypha communis (standard, fast decomposer)» Hyeronima oblonga > Alchornea latifolia, Quercus bumelioides, Jarava ichu (standard, slow decomposer)> Minquartia guianensis > Magnolia sororum > Vochysia allenii > Pourouma bicolor, Carapa guianensis. These two slowest-decomposing species were native premontane and lowland forest dominants, respectively, with tough, low-nutrient leaves. The ranking of species by k varied very little among life zones suggesting that decomposer organisms in very different ecosystems and environments react in similar ways to the litter quality in general. We conclude that while k decreases with temperature in rain forests on tropical mountains, bioclimatic zones defined as premontane may be “functionally lowland.” The effects of species identity on decomposition rates on tropical mountains are consistent and independent of environment for both standard and native species. Under climate change on these mountains, if moisture regimes do not change, decomposition rates will increase due to rising temperatures. Soil carbon storage may therefore decrease. Changes in the altitudinal distributions of currently dominant species will also affect this critically important biogeochemical process.

Published

2019

46. Metabolic profiling and secondary metabolite accumulation during fruit development of Cornus officinalis Sieb. et Zucc

Author

Chang Ha Park, Ramaraj Sathasivam, Tae Jin Kim, Byung Bae Park, Jae Kwang Kim, and Sang Un Park

Subjects

Agronomy and Crop Science

Published

2022

47. Effects of Irrigation and Fertilization on the Morpho-Physiological Traits of Populus sibirica Hort. Ex Tausch and Ulmus pumila L. In the Semi-arid Steppe Region of Mongolia

Author

Otgonsaikhan Byambasuren, Byung Bae Park, Ser-Oddamba Byambadorj, Donato Chiatante, Jonathan O. Hernandez, Enkhchimeg Tsedensodnom, Batkhuu Nyam-Osor, and Antonio Montagnoli

Subjects

geography, Irrigation, geography.geographical_feature_category, biology, Steppe, media_common.quotation_subject, Morpho, biology.organism_classification, Arid, Ulmus pumila, Human fertilization, Agronomy, Desertification, Afforestation, media_common

Abstract

Desertification is impeding the implementation of reforestation efforts in Mongolia. Many of these efforts have been unsuccessful due to lack of technical knowledge on water and nutrient management strategies, limited financial support, and short-lived rainfall events. We investigated the effects of irrigation and fertilization on the morpho-physiological traits of Populus sibirica Hort. Ex Tausch and Ulmus pumila L. and to suggest irrigation and fertilization strategies for reforestation. Different irrigation and fertilizer treatments were applied: no irrigation, 2 L h-1, 4 L h-1 and 8 L h-1 of water; no fertilizer, 2 L h-1 + NPK, 4 L h-1 + NPK, and 8 L h-1 + NPK; and no compost, 2 L h-1 + compost, 4 L h-1 + compost, and 8 L h-1 + compost. The leaf area (LA) and specific leaf area (SLA) of both species responded positively to 4 L h-1 and/or 8 L h-1. Results also showed that the addition of either NPK or compost to 4 L h-1 and/or 8 L h-1 irrigation resulted in a higher LA, SLA, and leaf biomass (LB). Total chlorophyll content decreased with irrigation in both species. The same pattern was detected when a higher amount of irrigation was combined with fertilizers. Lastly, we found that both diurnal and seasonal leaf water potential of plants grown in 4 L h-1 and/or 8 L h-1 were significantly higher than in control plots. Therefore, 4 L h-1 and/or 8 L h-1 with either NPK or compost has shown to be the optimal irrigation and fertilization strategy for the species in an arid and semi-arid region of Mongolia. Results should provide us with a better understanding of tree responses to varying amounts of irrigation with or without fertilizer in pursuit of sustainable forest management in arid and semi-arid ecosystems.

Published

2021

48. Physicochemical Properties of Fermented Milk Supplemented with Helianthus tuberosus Powder

Author

Myoung Soo Nam, Byung Bae Park, and Gereltuya Renchinkhand

Subjects

biology, Chemistry, Staphylococcus aureus, medicine, Fermentation, Food science, medicine.disease_cause, Helianthus, biology.organism_classification, Escherichia coli

Published

2019

49. Comparison of litterfall production in three forest types in Jeju Island, South Korea

Author

Jeong Min Seo, Si Ho Han, Afroja Rahman, Hyung-Soon Choi, Byung Bae Park, Sang Ick Lee, Ji Young An, Hwa Ja Hyun, Aung Aung, Woo Bin Youn, and Huong Thi Thuy Dao

Subjects

0106 biological sciences, Wet season, Nutrient cycle, biology, Forestry, 04 agricultural and veterinary sciences, Plant litter, biology.organism_classification, 01 natural sciences, Quercus glauca, Twig, Pinus thunbergii, Agronomy, Forest ecology, 040103 agronomy & agriculture, Litter, 0401 agriculture, forestry, and fisheries, Environmental science, 010606 plant biology & botany

Abstract

Litterfall, which is influenced by physical and biological factors, is a major pathway for carbon and nutrient cycling in forest ecosystems. The purpose of this study was to investigate monthly litterfall production in three forests in Jeju Island differentiated by forest composition and precipitation: Cheongsu (Quercus glauca as the dominant species; low precipitation), Seonheulb (Q. glauca as the dominant species; high precipitation), and Seonheulm (Q. glauca and Pinus thunbergii as the dominant species; high precipitation). Litterfall was collected monthly from April to December 2015 and divided into leaf litter, twig, bark, seeds, and unidentified materials. Seasonal patterns of litterfall production varied across stands according to their species composition. However, the amount of leaf litterfall and total litterfall were comparable among stands, ranging from 362 to 375 g m−2 for leaf litter and 524 g m−2 to 580 g m−2 for total litterfall. Oak leaf litter in May was the highest in all stands, while needle litter was the highest in December in Seonheulm. High twig litterfall in July may be attributable to high rainfall with strong winds and storms during the rainy season. Although forest type and climate factor had no influence on litterfall amounts in this study, the pattern of litterfall production was species dependent, suggesting diverse effects on carbon and nutrient cycling in these forests.

Published

2019

50. The Effects of Biochar Made by Oaks on the Growth and Seedling Quality Index of Prunus sargentii in a Containerized Production System

Author

Aung Aung, Si Ho Han, Minseok Cho, Byung Bae Park, Loth Meng, and Woo Bin Youn

Subjects

Horticulture, Index (economics), biology, Seedling, Biochar, Prunus sargentii, Environmental science, biology.organism_classification, Production system

Published

2019