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Divergent responses of fine root decomposition to removal of understory plants and overstory trees in subtropical Eucalyptus urophylla plantations

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Abstract

Aims

Plant fine roots play an important role in forest nutrient cycling. However, how fine root decomposition responds to plant removal is poorly understood. We aimed to examine the effects of understory plants and overstory trees removal on fine root decomposition in 8- and 29-year-old (young and mature, respectively) Eucalyptus urophylla plantations.

Methods

A field decomposition experiment of fine roots from E. urophylla and Dicranopteris dichotoma was performed. The fine roots of E. urophylla were divided into two groups: the first two orders and the third to fifth orders. Mass remaining, carbon (C) and nutrients (nitrogen: N, phosphorus: P) remaining in fine roots were determined.

Results

Understory removal retarded decomposition of lower-order roots of E. urophylla in the young plantation and decomposition of fine root of D. dichotoma in the mature plantation, but it did not affect root N and P remaining in either plantation. Unexpectedly, tree removal did not affect fine root decomposition, and nutrients remaining of E. urophylla and D. dichotoma. Stand age significantly influenced fine root N remaining and root branch order affected fine root decomposition and nutrients remaining.

Conclusions

Fine root decomposition exhibited divergent responses to understory removal and the effects depended on stand age and root branch order, but no response to tree removal. In addition, fine root nutrient dynamics exhibited various responses to stand age and root branch order. Understory plants, stand age, and root branch order should be considered when assessing the decomposition and nutrient cycling of fine roots in subtropical plantation forests.

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Data availability

The datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.

Code availability

Not applicable.

References

  • Arunachalam A, Pandey HN, Tripathi RS, Maithani K (1996) Fine root decomposition and nutrient mineralization patterns in a subtropical humid forest following tree cutting. For Ecol Manag 86:141–150

    Article  Google Scholar 

  • Azaryan M, Vajari KA, Amanzadeh B (2021) Variations in humus and fine root properties related to development stages in a temperate natural Beech forest. Eur J For Res 140:1–10

    Article  Google Scholar 

  • Bao S (2000) Analysis in soil and agrochemistry, 3rd edn. Agricultural Press, Beijing

    Google Scholar 

  • Bossio DA, Scow KM (1998) Impacts of carbon and flooding on soil microbial communities: phospholipid fatty acid profiles and substrate utilization patterns. Microb Ecol 35:265–278

    Article  CAS  PubMed  Google Scholar 

  • Chen Y, Liu Z, Rao X, Wang X, Liang C, Lin Y, Zhou L, Cai X, Fu S (2015) Carbon storage and allocation pattern in plant biomass among different forest plantation stands in Guangdong, China. Forests 6:794–808

    Article  Google Scholar 

  • Chen Y, Zhang Y, Cao J, Fu S, Hu S, Wu J, Zhao J, Liu Z (2019) Stand age and species traits alter the effects of understory removal on litter decomposition and nutrient dynamics in subtropical Eucalyptus plantations. Glob Ecol Conserv 20:e00693

    Article  Google Scholar 

  • Crotteau JS, Rue-Johns AZ, Barnard JC (2020) Effects on understory biomass and forage 8–10 years after precommercial thinning of Sitka spruce-western hemlock stands in southeast Alaska. Can J For Res 50:215–225

    Article  Google Scholar 

  • Dossa GG, Jin YQ, Lü XT, Tang JW, Harrison RD (2019) Small roots of Parashorea chinensis Wang Hsie decompose slower than twigs. Forests 10:301

    Article  Google Scholar 

  • Eldhuset TD, Kjønaas OJ, Lange H (2017) Decomposition rates and nutrient dynamics of Picea abies needles, twigs and fine roots after stem-only harvesting in eastern and western Norway. Plant Soil 418:357–375

    Article  CAS  Google Scholar 

  • Fan P, Guo D (2010) Slow decomposition of lower order roots: a key mechanism of root carbon and nutrient retention in the soil. Oecologia 163:509–515

    Article  PubMed  Google Scholar 

  • Finér L, Ohashi M, Noguchi K, Hirano Y (2011) Factors causing variation in fine root biomass in forest ecosystems. For Ecol Manag 261:265–277

    Article  Google Scholar 

  • Fornara DA, Tilman D, Hobbie SE (2009) Linkages between plant functional composition, fine root processes and potential soil N mineralization rates. J Ecol 97:48–56

    Article  CAS  Google Scholar 

  • García-Palacios P, Prieto I, Ourcival JM, Hättenschwiler S (2016) Disentangling the litter quality and soil microbial contribution to leaf and fine root litter decomposition responses to reduced rainfall. Ecosystems 19:490–503

    Article  Google Scholar 

  • Giuggiola A, Zweifel R, Feichtinger LM, Vollenweider P, Bugmann H, Haeni M, Rigling A (2018) Competition for water in a xeric forest ecosystem-effects of understory removal on soil micro-climate, growth and physiology of dominant Scots pine trees. For Ecol Manag 409:241–249

    Article  Google Scholar 

  • Gray L, Kernaghan G (2020) Fungal succession during the decomposition of ectomycorrhizal fine roots. Microb Ecol 79:271–284

    Article  CAS  PubMed  Google Scholar 

  • Guo D, Mitchell RJ, Withington JM, Fan PP, Hendricks JJ (2008) Endogenous and exogenous controls of root life span, mortality and nitrogen flux in a longleaf pine forest: root branch order predominates. J Ecol 96:737–745

    Article  CAS  Google Scholar 

  • Guo L, Deng M, Yang S, Liu W, Wang X, Wang J, Liu L (2021) The coordination between leaf and fine root litter decomposition and the difference in their controlling factors. Glob Ecol Biogeogr 30:2286–2296

    Article  Google Scholar 

  • Han SH, Kim S, Chang H, Kim HJ, Khamzina A, Son Y (2019) Soil depth-and root diameter-related variations affect root decomposition in temperate pine and oak forests. J Plant Ecol 12:871–881

    Article  Google Scholar 

  • Harmon ME, Silver WL, Fasth B, Chen HUA, Burke IC, Parton WJ, Hart SC, Currie WS, Lidet (2009) Long-term patterns of mass loss during the decomposition of leaf and fine root litter: an intersite comparison. Glob Chang Biol 15:1320–1338

    Article  Google Scholar 

  • Huang J, Chen G, Yang Z, Xiong D, Guo J, Xie J, Robinson D, Yang Y (2016) Understory fine roots are more ephemeral than those of trees in subtropical Chinese fir (Cunninghamia lanceolata (Lamb.) Hook) stands. Ann For Sci 73:657–667

    Article  Google Scholar 

  • He LX, Jia ZQ, Li QX, Feng LL, Yang KY (2019) Fine-root decomposition characteristics of four typical shrubs in sandy areas of an arid and semiarid alpine region in western China. Ecol Evol 9:5407–5419

    Article  PubMed  PubMed Central  Google Scholar 

  • Jackson RB, Mooney HA, Schulze E-D (1997) A global budget for fine root biomass, surface area, and nutrient contents. Proc Natl Acad Sci USA 94:7362–7366

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  • Jenkins MW, Chambers JL (1989) Understory light levels in mature hardwood stands after partial overstory removal. For Ecol Manag 26:247–256

    Article  Google Scholar 

  • Joslin JD, Gaudinski JB, Torn MS, Riley WJ, Hanson PJ (2006) Fine-root turnover patterns and their relationship to root diameter and soil depth in a 14 C-labeled hardwood forest. New Phytol 172:523–535

    Article  CAS  PubMed  Google Scholar 

  • Kawakami E, Katayama A, Hishi T (2020) Effects of declining understory vegetation on leaf litter decomposition in a Japanese cool-temperate forest. J For Res 25:260–268

    Article  CAS  Google Scholar 

  • Kohout P, Sudová R, Brabcová V, Vosolsobeˇ S, Baldrian P, Albrechtová J (2021) Forest microhabitat affects succession of fungal communities on decomposing fine tree roots. Front Microbiol 12:541583

    Article  PubMed  PubMed Central  Google Scholar 

  • Kou L, Jiang L, Fu X, Dai X, Wang H, Li S (2018) Nitrogen deposition increases root production and turnover but slows root decomposition in Pinus elliottii plantations. New Phytol 218:1450–1461

    Article  PubMed  Google Scholar 

  • Kunhamu TK, Kumar BM, Viswanath S (2009) Does thinning affect litterfall, litter decomposition, and associated nutrient release in Acacia mangium stands of Kerala in peninsular India? Can J For Res 39:792–801

    Article  CAS  Google Scholar 

  • Kuperman RG (1999) Litter decomposition and nutrient dynamics in oak-hickory forests along a historic gradient of nitrogen and sulfur deposition. Soil Biol Biochem 31:237–244

    Article  CAS  Google Scholar 

  • Lado-Monserrat L, Lidón A, Bautista I (2016) Erratum to: Litterfall, litter decomposition and associated nutrient fluxes in Pinus halepensis: Influence of tree removal intensity in a Mediterranean forest. Eur J For Res 135:203–214

    Article  Google Scholar 

  • Li A, Fahey TJ, Pawlowska TE, Fisk MC, Burtis J (2015) Fine root decomposition, nutrient mobilization and fungal communities in a pine forest ecosystem. Soil Biol Biochem 83:76–83

    Article  CAS  Google Scholar 

  • Li FL, McCormack ML, Liu X, Hu H, Feng DF, Bao WK (2020) Vertical fine-root distributions in five subalpine forest types shifts with soil properties across environmental gradients. Plant Soil 456:129–143

    Article  CAS  Google Scholar 

  • Li R, Guan X, Han J, Zhang Y, Zhang W, Wang J, Huang Y, Xu M, Chen L, Wang S, Yang Q (2021) Litter decomposition was retarded by understory removal but was unaffected by thinning in a Chinese fir [Cunninghamia lanceolata (Lamb.) Hook] plantation. Appl Soil Ecol 163:103968

    Article  Google Scholar 

  • Lin C, Yang Y, Guo J, Chen G, Xie J (2011) Fine root decomposition of evergreen broadleaved and coniferous tree species in mid-subtropical China: dynamics of dry mass, nutrient and organic fractions. Plant Soil 338:311–327

    Article  CAS  Google Scholar 

  • Lin N, Bartsch N, Heinrichs S, Vor T (2015) Long-term effects of canopy opening and liming on leaf litter production, and on leaf litter and fine-root decomposition in a European beech (Fagus sylvatica L.) forest. For Ecol Manag 338:183–190

    Article  Google Scholar 

  • Luo D, Cheng R, Shi Z, Wang W (2017) Decomposition of leaves and fine roots in three subtropical plantations in China affected by litter substrate quality and soil microbial community. Forests 8:412

    Article  Google Scholar 

  • McGuire JP, Mitchell RJ, Moser EB, Pecot SD, Gjerstad DH, Hedman CW (2001) Gaps in a gappy forest: plant resources, longleaf pine regeneration, and understory response to tree removal in longleaf pine savannas. Can J For Res 31:765–778

    Article  Google Scholar 

  • McCormack ML, Dickie IA, Eissenstat DM, Fahey TJ, Fernandez CW, Guo D, Helmisaari H, Hobbie EA, Ivrsen CM, Jackson RB, Leppälammi-Kujansuu J, Norby RJ, Phillips RP, Pregitzer KS, Pritchard SG, Rewald B, Zadworny M (2015) Redefining fine roots improves understanding of below‐ground contributions to terrestrial biosphere processes. New Phytol 207:505–518

    Article  PubMed  Google Scholar 

  • Minerovic AJ, Valverde-Barrantes OJ, Blackwood CB (2018) Physical and microbial mechanisms of decomposition vary in importance among root orders and tree species with differing chemical and morphological traits. Soil Biol Biochem 124:142–149

    Article  CAS  Google Scholar 

  • Nilsson MC, Wardle DA (2005) Understory vegetation as a forest ecosystem driver: evidence from the northern Swedish boreal forest. Front Ecol Environ 3:421–428

    Article  Google Scholar 

  • Pervaiz ZH, Contreras J, Hupp BM, Lindenberger JH, Chen D, Zhang Q, Wang C, Twigg P, Saleem M (2020) Root microbiome changes with root branching order and root chemistry in peach rhizosphere soil. Rhizosphere 16:100249

    Article  Google Scholar 

  • Powers JS, Montgomery RA, Adair EC, Brearley FQ, DeWalt SJ, Castanho CT, Chave J, Deinert E, Ganzhorn JU, Gilbert ME, González-Iturbe JA, Bunyavejchewin S, Grau HR, Harms KE, Hiremath A, Irarte-Vivar S, Manzane E, de Oliveira AA, Poorter L, Ramanamanjato J, Salk C, Varela A, Weiblen GD, Lerdau MT (2009) Decomposition in tropical forests: a pan-tropical study of the effects of litter type, litter placement and mesofaunal exclusion across a precipitation gradient. J Ecol 97:801–811

    Article  CAS  Google Scholar 

  • Prescott CE (2002) The influence of the forest canopy on nutrient cycling. Tree Physiol 22:1193–1200

    Article  CAS  PubMed  Google Scholar 

  • Prescott CE (2010) Litter decomposition: what controls it and how can we alter it to sequester more carbon in forest soils? Biogeochemistry 101:133–149

    Article  CAS  Google Scholar 

  • Sariyildiz T (2015) Effects of tree species and topography on fine and small root decomposition rates of three common tree species (Alnus glutinosa, Picea orientalis and Pinus sylvestris) in Turkey. For Ecol Manag 335:71–86

    Article  Google Scholar 

  • See CR, Luke McCormack M, Hobbie SE, Flores-Moreno H, Silver WL, Kennedy PG (2019) Global patterns in fine root decomposition: climate, chemistry, mycorrhizal association and woodiness. Ecol Lett 22:946–953

    Article  PubMed  Google Scholar 

  • Solly EF, Schöning I, Boch S, Kandeler E, Marhan S, Michalzik B, Müller J, Zscheischler J, Trumbore SE, Schrumpf M (2014) Factors controlling decomposition rates of fine root litter in temperate forests and grasslands. Plant Soil 382:203–218

    Article  CAS  Google Scholar 

  • Sun T, Hobbie SE, Berg B, Zhang H, Wang Q, Wang Z, Hättenschwiler S (2018) Contrasting dynamics and trait controls in first-order root compared with leaf litter decomposition. Proc Natl Acad Sci USA 115:10392–10397

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  • Sun T, Mao Z, Dong L, Hou L, Song Y, Wang X (2013) Further evidence for slow decomposition of very fine roots using two methods: litterbags and intact cores. Plant Soil 366:633–646

    Article  CAS  Google Scholar 

  • Tong J, Xiang W, Liu C, Lei P, Tian D, Deng X, Peng C (2012) Tree species effects on fine root decomposition and nitrogen release in subtropical forests in southern China. Plant Ecol Divers 5:323–331

    Article  Google Scholar 

  • Tripathi SK (2019) Fine root growth and soil nutrient dynamics during shifting cultivation in tropical semi-evergreen forests of northeast India. J Environ Biol 40:45–52

    Article  Google Scholar 

  • Trocha LK, Bułaj B, Kutczyńska P, Mucha J, Rutkowski P, Zadworny M (2017) The interactive impact of root branch order and soil genetic horizon on root respiration and nitrogen concentration. Tree Physiol 37:1055–1068

    Article  CAS  PubMed  Google Scholar 

  • Wang C, Han S, Zhou Y, Zhang J, Zheng X, Dai G, Li MH (2016) Fine root growth and contribution to soil carbon in a mixed mature Pinus koraiensis forest. Plant Soil 400:275–284

    Article  CAS  Google Scholar 

  • Wang Q, Wang N, Wang Y, Wang Q, Duan B (2017) Differences in root-associated bacterial communities among fine root branching orders of poplar (Populus × Euramericana (Dode) Guinier.). Plant Soil 421:123–135

    Article  CAS  Google Scholar 

  • Wu J, Liu Z, Wang X, Sun Y, Zhou L, Lin Y, Fu S (2011) Effects of understory removal and tree girdling on soil microbial community composition and litter decomposition in two Eucalyptus plantations in South China. Funct Ecol 25:921–931

    Article  Google Scholar 

  • Xu W, Liu J, Liu X, Li K, Zhang D, Yan J (2013) Fine root production, turnover, and decomposition in a fast-growth Eucalyptus urophylla plantation in southern China. J Soils Sediments 13:1150–1160

    Article  Google Scholar 

  • Yang S, Cheng R, Xiao W, Shen Y, Wang L, Guo Y, Sun P (2020) Heterogeneity in decomposition rates and nutrient release in fine-root architecture of Pinus massoniana in the Three Gorges Reservoir Area. Forests 11:14

    Article  CAS  Google Scholar 

  • Yang Z (2014) A study on root characteristics and nutrients of different-aged Chinese fir plantations. Northwest A & F University, Yangling, Shaanxi, China

    Google Scholar 

  • Yuan ZY, Chen HY (2010) Fine root biomass, production, turnover rates, and nutrient contents in boreal forest ecosystems in relation to species, climate, fertility, and stand age: literature review and meta-analyses. CRC Crit Rev Plant Sci 29:204–221

    Article  CAS  Google Scholar 

  • Yuan ZY, Chen HY, Reich PB (2011) Global-scale latitudinal patterns of plant fine-root nitrogen and phosphorus. Nat Commun 2:1–6

    Article  Google Scholar 

  • Zhao J, Wan S, Shao Y, Xu G, Liu Z, Zhou L, Fu S (2012) Dicranopteris-dominated understory as major driver of intensive forest ecosystem in humid subtropical and tropical region. Soil Biol Biochem 49:78–87

    Article  CAS  Google Scholar 

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Acknowledgements

We thank Yongbiao Lin and Mozheng Li for their help in litterbag preparation, fine root collection, and litterbag layout.

Funding

This work was supported by the National Key Research and Development Program of China (No. 2021YFC3100405) and the National Natural Science Foundation of China (No. 42177289 and 31901194).

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Contributions

Z.L. and S.F. designed the study. Y.C., Y.Z. and J.C. performed the study. Y.C. and Z.L. analyzed the data and wrote the manuscript. J.W. and H.L. revised the manuscript. All authors read and approved the final manuscript.

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Correspondence to Zhanfeng Liu.

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Chen, Y., Zhang, Y., Cao, J. et al. Divergent responses of fine root decomposition to removal of understory plants and overstory trees in subtropical Eucalyptus urophylla plantations. Plant Soil 476, 639–652 (2022). https://doi.org/10.1007/s11104-022-05433-1

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