Litterfall, litter decomposition, and carbon storage of Pinus densiflora and Quercus variabilis stands in South Korea

Gyeongwon Baek; Choonsig Kim

doi:10.2478/foecol-2024-0004

Authors

Gyeongwon Baek Division of Environmental and Forest Science, Gyeongsang National University Author
Choonsig Kim Division of Environmental and Forest Science, Gyeongsang National University Author

DOI:

https://doi.org/10.2478/foecol-2024-0004

Keywords:

carbon cycle, litter decomposition, litterfall, oak, pine, soil carbon

Abstract

The quantification of carbon (C) storage of different stand types is a key component for understanding forest C cycles and potential climate change. This study evaluated the effects of stand types on litterfall, litter decomposition, and forest C storage in Pinus densiflora S. et Z. and Quercus variabilis Blume stands in southern Korea. The aboveground C storage by tree biomass was not affected (P > 0.05) by stand types (P. densiflora: 79.49 Mg C ha^–1; Q. variabilis: 96.37 Mg C ha^–1). However, total C inputs by litterfall were significantly higher for the P. densiflora (4,473 kg C ha–1 year–1) than for the Q. variabilis (2,633 kg C ha–1 year^–1) stands. Organic C over litter decomposition processes was more rapidly mineralized in the leaf litter of Q. variabilis than in needle litter of P. densiflora, but C storage on the forest floor was not affected by different stand types. Total soil C storage was not significantly different between the Q. variabilis (55.71 Mg C ha^–1) and P. densiflora (80.49 Mg C ha–1), whereas the C concentrations at each soil depth were significantly higher in the P. densiflora than in the Q. variabilis stands, except for the subsurface depth (30–50 cm). These results indicate that the distribution of C storage in P. densiflora and Q. variabilis stands is less susceptible to interspecific differences, such as litterfall inputs and decomposition rates.

References

An, J.Y., Park, B.B., Chun, J.H., Osawa, A., 2017. Litter-fall production and fine root dynamics in cool-temperate forests. PLoS One, 12: e0180126. https://doi:10.1371/journal.pone.0180126.

Badalamenti, E., Battipaglia, G., Gristina, L., Novara, A., Rühl, J., Sala, G., Sapienza, L., Valentini, R., Mantia, T.L., 2019. Carbon stock increases up to old growth forest along a secondary succession in Mediterranean island ecosystems. PLoS ONE, 14: e0220194. https://doi.org/10.1371/journal.pone.0220194

Baek, G., Kim, C., 2020. Soil CO2 efflux dynamics in response to fertilization in Pinus densiflora and Quercus variabilis stands. Journal of Korean Society of Forest Science, 109: 271–280. https://doi.org/10.14578/jkfs.2020.109.3.271. (In Korean with English abstract). https://doi.org/10.14578/jkfs.2020.109.3.271

Berg, B., Laskowski, R., 2006. Litter decomposition: aguide to carbon and nutrient turnover. Advances in Ecological Research, 38: 20–71 p.

Domke, G.M., Perry, C.H., Walters, B.F., Woodall, C.W., Russell, M.B., Smith, J.E., 2016. Estimating litter carbon stocks on forest land in the United States. Science of the Total Environment, 557-558: 469–478. https://doi.org/10.1016/j.scitotenv.2016.03.090

Egusa, T., Kumagai, T., Shiraishi, N., 2020. Carbon stock in Japanese forests has been greatly underestimated. Scientific Reports, 10: 7895. https://doi.org/10.1038/s41598-020-64851-2

Gao, Y., Cheng, J., Ma, Z., Zhao, Y., Su, J., 2014. Carbon storage in biomass, litter, and soil of different plantations in a semiarid temperate region of Northwest China. Annals of Forest Science, 71: 427–435. https://doi.org/10.1007/s13595-013-0355-z

Jandl, R., Lindner, M., Vesterdal, L., Bauwens, B., Baritz, R., Hagedorn, F., Johnson, D.W., Minkkinen, K., Byrne, K.A., 2007. How strongly can forest management influence soil carbon sequestration? Geoderma, 137: 253–268. https://doi.org/10.1016/j.geoderma.2006.09.003

Kim, C., 2019. Carbon and nitrogen distribution of tree components in Larix kaempferi Carriere and Quercus variabilis Blume stands in Gyeongnam Province. Journal of Korean Society of Forest Science, 108: 139–146. https://doi.org/10.14578/jkfs.2019.108.2.139

Kim, C., Baek, G., Choi, B., HA, J., Bae, E.J., Lee, K.S., Son, Y.M., 2020. Carbon stocks of tree, forest floor, and mineral soil in Cryptomeria japonica and Chamaecyparis obtusa stands. Journal of Korean Society of Forest Science, 109: 169–178. https://doi.org/10.14578/jkfs.2020.109.2.169. (In Korean with English abstract). https://doi.org/10.14578/jkfs.2020.109.2.169

Kim, C., Jeong, J., Kim, R.H., Son, Y.M., Lee, K.H., kim, J.S., Park, I.H., 2011. Allometric equations and bio-mass expansion factors of Japanese red pine on the local level. Landscape and Ecological Engineering, 7: 283–289. https://doi.org/10.1007/s11355-010-0131-2

Kim, C., Yoo, B.O., Jung, S.Y., Lee, K.S., 2017. Allometric equations to assess biomass, carbon and nitrogen content of black pine and red pine trees in Southern Korea. iForest – Biogeosciences and Forestry, 10: 483–490. https://doi.org/10.3832/ifor2164-010

Kim, M., Kraxner, F., Son, Y., Jeon, S.W., Shvidenko, A., Schepaschenko, D., Ham, B.Y., Lim, C.H., Song, C., Hong, M., Lee, W.K., 2019. Quantifying impacts of national-scale afforestation on carbon budgets in South Korea from 1961 to 2014. Forests, 10: 579. https://doi.org/10.3390/f10070579

Korea Meterological Administration, 2019. Climatological normal of Korea. Korea Meteorological Administration, Seoul. [online]. [cit. 2021-11-20]. https://kma.go.kr/down/Climatological_2010.pdf.

Krishna, M.P., Mohan, M., 2017. Litter decomposition in forest ecosystems: a review. Energy, Ecology and Environment, 2: 236–249. https://doi.org/10.1007/s40974-017-0064-9

Lavadinović, V., Miletić, Z., Lavadinović, V., 2015. Variability of nitrogen and carbon contents in the needles of Canadian Douglas-fir provenances on two soil types in Serbia. Baltic Forestry, 21: 272–278. ISSN 2029-9230.

Lee, S., Lee, S., Shin, J., Yim, J., Kang, J., 2020. Assessing the carbon storage of soil and litter from national forest inventory data in South Korea. Forests, 11: 1318. https://doi.org/10.3390/f11121318

Lee, S.J., Yim, J.S., Son, Y.M., Son, Y., Kim, R., 2018. Estimation of forest carbon stocks for national greenhouse gas inventory reporting in South Korea. Forests, 9: 625. https://doi.org/10.3390/f9100625

Liu, C.J., Westman, C.J., Ilvesniemi, H., 2001. Matter and nutrient dynamics of pine (Pinus tabulaeformis) and oak (Quercus variabilis) litter in North China. Silva Fennica, 35: 3–13. https://doi.org/10.14214/sf.599

Lukina, N., Kuznetsova, A., Tikhonova, E., Smirnov, V., Danilova, M., Gornov, A., Bakhmet, O., Kryshen, A., Tebenkova, D., Shashkov, M., Knyazeva, S., 2020. Linking forest vegetation and soil carbon stock in Northwestern Russia. Forests, 11: 979. https://doi.org/10.3390/f11090979

Noh, N.J., Kim, C., Bae, S.W., Lee, W.K., Yoon, T.K., Muraoka, H., Son, Y., 2013. Carbon and nitrogen dynamics in a Pinus densiflora forest with low and high stand densities. Journal of Plant Ecology, 6: 368–379. https://doi.org/10.1093/jpe/rtt007

Olson, J.S., 1963. Energy storage and the balance of producers and decomposers in ecological systems. Ecology, 44: 322–331. https://doi.org/10.2307/1932179

Park, B.B., Rahman, A., Han, S.H., Youn, W.B., Hyun, H.J., Hernandez, J., An, J.Y., 2020. Carbon and nutrient inputs by litterfall in evergreen and deciduous forests in Korea. Forests, 11: 143. https://doi.org/10.3390/f11020143

Park, S.W., Baek, G., Kim, S., Yang, A.R., Kim, C., 2019. Carbon and nitrogen responses of litterfall components by NPK and PK fertilizers in a red pine (Pinus densiflora S. et Z.) stand. Journal of Korean Society of Forest Science, 108: 21–28. https://doi.org/10.14578/jkfs.2019.108.1.21

Pragasan, L.A., 2022. Tree carbon stock and its relationship to key factors from a tropical hill forest of Tamil Nadu, India. Geology, Ecology, and Landscapes, 6: 32–39. https://doi.org/10.1080/24749508.2020.1742510

Pugh, T.A.M., Lindeskog, M., Smith, B., Poulter, B., Arneth, A., Haverd, V., Calle, L., 2019. Role of forest regrowth in global carbon sink dynamics. PNAS, 116: 4382–4387. https://doi.org/10.1073/pnas.1810512116

Sas Institute Inc., 2003. SAS/STAT Statistical Software. Version 9.1. Cary, NC. USA: SAS publishing.

Wang, S., Zhuang, Q., Yang, Z., Yu, N., Jin, X., 2019. Temporal and spatial changes of soil organic carbon stocks in the forest area of Northeastern China. Forests, 10: 1023. https://doi.org/10.3390/f10111023

Wei, Y., Li, M., Chen, H., Lewis, B.J., Yu, D., Zhou, L., Zhou, W., Fang, X., Zhao, W., Dai, L., 2013. Variation in carbon storage and its distribution by stand age and forest type in boreal and temperate forests in Northeastern China. PLoS ONE, 8: e72201. https://doi.org/10.1371/journal.pone.0072201

Won, H.Y., Namgung, J., Pyo, J.H., Mun, H.T., 2011. Litter production and nutrient input via litterfall in Quercus variabilis forest at Mt. Worak National Park. Korean Journal of Environment and Ecology, 25: 573–580. (In Korean with English abstract).

Yang, B., Zhang, W., Lu, Y., Zhang, W., Wang, Y., 2019. Carbon storage dynamics of secondary forest succession in the Central Loess Plateau of China. Forests, 10: 342. https://doi.org/10.3390/f10040342

Litterfall, litter decomposition, and carbon storage of Pinus densiflora and Quercus variabilis stands in South Korea

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

Issue

Section

License