Abstract
Background
This study was designed to evaluate the internal nutrient cycling of litterfall in different elevation subtropical forests of Central Taiwan.
Methods
The litterfall of evergreen hardwoods at three elevations, specifically Mt. Peitungyen (2,078 m), Hui-Sun experimental forest (HSEF) (1,066 m), and Lienhauchi (782 m) in central Taiwan, was collected monthly using traps and sorted into leaves, twigs, reproductive litter, and miscellaneous material. In addition, the litter on the forest floor was collected trimonthly. All the samples were weighed and measured for C, N, P, K, Ca, and Mg concentrations and fluxes from March 2009 to February 2010.
Results
The annual litterfall productions were 6.58, 8.24, and 9.17 Mg ha−1 year−1 at Mt. Peitungyen, HSEF, and Lienhauchi, respectively. At more than 60 %, leaves were the main component of the total litterfall. There was smallest decomposition constant (0.487) at Mt. Peitungyen. The nutrient fluxes increased as elevation decreased. The litterfall correlated positively with rainfall at Lienhauchi, with temperature at HSEF, and with temperature and rainfall at Mt. Peitungyen.
Conclusion
The annual litterfall decreased with an increase in elevation. The turnover rate was faster at HSEF than at Mt. Peitungyen. Thus, the forest managers should pay more attention to understand and monitor plant community responses to global warming and nutrient loss.
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References
Aceñolaza PG, Zamboni LP, Rodriguez EE, Gallardo JF (2010) Litterfall production in forests located at the Pre-delta area of the Paraná River (Argentina). Ann For Sci 67:311
Berg B (2000) Litter decomposition and organic matter turnover in northern forest soils. For Ecol Manage 133:13–22
Berg B, Meentemeyer V (2001) Litter fall in some European coniferous forests as dependent on climate: a symthesis. Can J For Res 31:292–301
Brown SJ, Lugo AE (1982) The storage and production of organic matter in tropical forests and their role in global carbon cycle. Biotropica 14:161–187
Chiou CR, Chen TY, Liu HY, Wang JC, Yeh CL, Hsieh CF (2009) Atlas of natural vegetation in Taiwan. Forestry Bureau, Council of Agriculture, Executive Yuan (in Chinese)
Domisch T, Finér L, Laine J, Laiho R (2006) Decomposition and nitrogen dynamics of litter in peat soils from two climatic regions under different temperature regimes. Eur J Soil Biol 42:74–81
Facelli JM, Pickett STA (1991) Plant litter: its dynamics and effects on plant community structure. Bot Rev 57:1–32
Garten CT, Hanson PJ (2006) Measured forest soil C stocks and estimated turnover times along an elevation gradient. Geoderma 136:342–352
Horng FW, Huang CM, Lin KC, Du CT, Cheng LC (2003) Organic matter accumulation in forest floors of forest ecosystems in Taiwan. Taiwan J For Sci 18:101–106
Killingbeck KT (1996) Nutrients in senesced leaves: key to the search for potential resorption and resorption proficiency. Ecology 77:1716–1727
Killingbeck KT, Whitford WG (2001) Nutrient resorption in shrubs growing by design, and by default in Chihuahuan Desert arroyos. Oecologia 128:351–359
Kitayama K, Aiba S (2002) Ecosystem structure and productivity of tropical rain forests along altitudinal gradients with contrasting soil phosphorus pools on Mount Kinabalu, Borneo. J Ecol 90:37–51
Kozlowski TT, Kramer PJ, Pallardy SG (1991) The physiological ecology of woody plants. Academic, San Diego, p 657
Liu C, Westman CJ, Berg B, Kutsch W, Wang GZ, Man R, Ilvesniemi H (2004) Variation in litterfall–climate relationships between coniferous and broadleaf forests in Eurasia. Global Ecol Biogeogr 13:105–114
Liu C, Berg B, Kutsch W, Westman CJ, Ilvesniemi H, Shen X, Shen G (2006) Leaf litter nitrogen concentration as related to climatic factors in Eurasian forests. Global Ecol Biogeogr 15:438–444
Nadkarni NM, Matelson TJ (1992) Biomass and nutrient dynamics of fine litter of terrestrially rooted material in a meotropical montane forest, Costa Rica. Biotropica 24:113–120
Oleksyn J, Reich PB, Zytkowiak R, Karolewski P, Tjoelker MG (2003) Nutrient conservation increases with latitude of origin in European Pinus sylvestris populations. Oecologia 136:220–235
Olson JS (1963) Energy storage and the blance of producers and decomposers in ecological systems. Ecology 44:322–331
Pendry CA, Proctor J (1996) The cause of altitudinal zonation of rain forests on Bukit Belalong, Brunei. J Ecol 84:407–418
Reiners WA, Lang GE (1987) Change in litterfall along a gradient in altitude. J Ecol 75:629–638
Röderstein M, Hertel D, Leuschner C (2005) Above- and below-ground litter production in three tropical montane forests in southern Ecuador. J Trop Ecol 21:483–492
Seniczak S, Dabrowski J, Klimek A, Kaczmarek S (1998) Effects of air pollution produced by a nitrogen fertilizer factory on the mites (Acari) associated with young Scots pine forests in Poland. Appl Soil Ecol 9:453–458
Simmons JA, Fernandez IJ, Briggs RD, Delaney MT (1996) Forest floor carbon pools and fluxes along a regional climate gradient in Maine, USA. For Ecol Manage 84:81–95
Staelens J, Nachtergale L, De Schrijver A, Vanhellemont M, Wuyts K, Verheyen K (2011) Spatio-temporal litterfall dynamics in a 60-year-old mixed deciduous forest. Ann For Sci 68:89–98
Tripathi SK, Sumida A, Shibata H, Ono K, Uemura S, Kodama Y, Hara T (2006) Leaf litterfall and decomposition of different above- and belowground parts of birch (Betula ermanii) trees and dwarf bamboo (Sasa kurilensis) shrubs in a young secondary forest in Northern Japan. Biol Fertil Soils 43:237–246
Vesterdal L, Schmidt IK, Callesen I, Nilsson LO, Gundersen P (2008) Carbon and nitrogen in forest floor and mineral soil under six common European tree species. For Ecol Manage 255:35–48
Vogt KA, Grier CC, Vogt DJ (1986) Production, turnover, and nutrient dynamics of above- and belowground detritus of world forests. Adv Ecol Res 15:303–377
Yen CH, Shiang YJ (2007) Using forest site patches to estimate the soil organic carbon pool in the Puli and Luanda forest working circles. Taiwan J For Sci 22:469–482 [in Chinese with English summary]
Acknowledgements
The authors thank the National Science Council, Taiwan, for financial support (NSC 97-2321-B-005-013).
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Handling Editor: Gilbert Aussenac
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Chiung-Pin Liu designed the study, performed research, analyzed data, and wrote the paper. Shu-Wei Lu performed the experiment and running the data analysis.
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Lu, SW., Liu, CP. Patterns of litterfall and nutrient return at different altitudes in evergreen hardwood forests of Central Taiwan. Annals of Forest Science 69, 877–886 (2012). https://doi.org/10.1007/s13595-012-0213-4
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DOI: https://doi.org/10.1007/s13595-012-0213-4