Soil properties and not plant factors affect both abundant and rare microbial taxa after thinning in a mixed stand of Cunninghamia lanceolata and Sassafras tzumu

Wanxia Peng, Tongqing Song, Hu Du, Feng Wang, Fuping Zeng, Yang Wang, Shulin Chen, Yinzhu Chen

Journal of Forestry Research ›› 2024, Vol. 35 ›› Issue (1) : 18.

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Journal of Forestry Research ›› 2024, Vol. 35 ›› Issue (1) : 18. DOI: 10.1007/s11676-023-01672-9
Original Paper

Soil properties and not plant factors affect both abundant and rare microbial taxa after thinning in a mixed stand of Cunninghamia lanceolata and Sassafras tzumu

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Abstract

Thinning is an effective management step for sustainable forest development, yet less attention is paid to the restoration of soil microbiota after thinning. In this study, both abundant and rare soil microbial communities (i.e., bacterial, fungal), were evaluated under various thinning treatments in a mixed stand of Cunninghamia lanceolata and Sassafras tzumu using MiSeq sequencing. Thinning did not significantly change either abundant or rare bacterial and fungal community composition, but affected their alpha diversity. The Shannon– Wiener indexes of rare fungal taxa under medium thinning were significantly lower than in the light thinning (P < 0.05 level). Xanthobacteraceae dominated the abundant bacterial taxa, and Saitozyma and Mortierlla the abundant fungal taxa. The most common rare bacterial taxa varied; there was no prevalent rare fungal taxa under different thinnings. In addition, soil available nitrogen, total phosphorus, and pH had significant effects on rare bacterial taxa. Nutrients, especially available phosphorus, but not nitrogen, affected abundant and rare soil fungi. The results indicate that soil properties rather than plant factors affect abundant and rare microbial communities in soils of mixed stands. Thinning, through mediating soil properties, influences both abundant and rare bacterial and fungal communities in the mixed C. lanceolata and S. tzumu stand.

Keywords

Diversity / Abundant taxa / Rare taxa / Thinning / Mixed stand

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Wanxia Peng, Tongqing Song, Hu Du, Feng Wang, Fuping Zeng, Yang Wang, Shulin Chen, Yinzhu Chen. Soil properties and not plant factors affect both abundant and rare microbial taxa after thinning in a mixed stand of Cunninghamia lanceolata and Sassafras tzumu. Journal of Forestry Research, 2024, 35(1): 18 https://doi.org/10.1007/s11676-023-01672-9

References

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Aliyu H, Gorte O, Neumann A, Ochsenreithera K. Draft genome sequence of the oleaginous yeast Saitozyma podzolica (syn. Cryptococcus podzolicus) DSM 27192. Microbiol Resour Announc, 2019, 8(8): e01676-e1718
CrossRef Google scholar
Allison SD, Martiny JBH. Resistance, resilience, and redundancy in microbial communities. Proc Natl Acad Sci USA, 2008, 105: 11512-11519
CrossRef Google scholar
Baldrian P, Šnajdr J, Merhautová V, Dobiášová P, Cajthaml T, Valášková V. Responses of the extracellular enzyme activities in hardwood forest to soil temperature and seasonality and the potential effects of climate change. Soil Biol Biochem, 2013, 56: 60-68
CrossRef Google scholar
Bao SD. Soil and agricultural chemistry analysis, 2000 3 Beijing: China Agriculture Press 25-114
Bastida F, Torres IF, Andrés-Abellán M, Baldrian P, López-Mondéjar R, Větrovský T, Richnow HH, Starke R, Ondoño S, García C. Differential sensitivity of total and active soil microbial communities to drought and forest management. Glob Chang Biol, 2017, 23: 4185-4203
CrossRef Google scholar
Bolyen E, Rideout JR, Dillon MR, Bokulich NA, Abnet CC, Al-Ghalith GA, Alexander H, Alm EJ, Arumugam M, Asnicar F, Bai Y, Bisanz JE, Bittinger K, Brejnrod A, Brislawn CJ, Brown CT, Callahan BJ, Caraballo-Rodrígue AM, Chase J, Cope EK, Silva RD, Diener C, Dorrestein PC, Douglas GM, Durall DM, Duvallet C, Edwardson CF, Ernst M, Estaki M, Fouquier J, Gauglitz JM, Gibbons SM, Gibson DL, Gonzalez A, Gorlick K, Guo JR, Hillmann B, Holmes S, Holste H, Huttenhower C, Huttley GA, Janssen S, Jarmusch AK, Jiang LJ, Karhler BD, Kang KB, Keefe CR, Keim P, Kelley ST, Knights D, Koester I, Kosciolek T, Kreps J, Langille MGI, Lee J, Ley R, Liu YX, Loftfield E, Lozupone C, Maher M, Marotz C, Martin BD, Mcdonald D, Mclver LJ, Melnik AV, Metcalf JL, Morgan SC, Morton JT, Naimey AT, Navas-Molina JA, Nothias LF, Orchanian SB, Pearson T, Peoples SL, Petras D, Preuss ML, Prusse E, Rasmussen LB, Rivers A, Robeson MS II, Rosenthal P, Segata N, Shaffer M, Shiffer A, Sinha R, Song SJ, Spear JR, Swafford AD, Thompson LR, Torres PJ, Trinh P, Tripathi A, Turnbaugh PJ, Ul-Hason S, van der Hooft JJJ, Vargas F, Vázquez-Baeza Y, Vogtomann E, von Hippel M, Walters W, Wan YH, Wang MX, Warren J, Weber KC, Williamson CHD, Willis AD, Xu ZZ, Zaneveld JR, Zhang YL, Zhu QY, Knight R, Caporaso JG. Reproducible, interactive, scalable and extensible microbiome data science using QIIME 2. Nat Biotechnol, 2019, 37: 852-857
CrossRef Google scholar
Braak TCJF, Smilauer P (2012) Canoco reference manual and user’s guide: software for ordination, version 5.0. Microcomputer Power P, Ithaca, USA
Bravo-Oviedo A. The role of mixed forests in a changing social-ecological world. Dynamics silviculture and management of mixed forests, 2018, Berlin: Springer 1-25
CrossRef Google scholar
Brookes PC, Powlson DS, Jenkinson DS. Measurement of microbial biomass phosphorus in soil. Soil Biol Biochem, 1982, 14: 319-329
CrossRef Google scholar
Brookes PC, Landman A, Pruden G, Jenkinson DS. Chloroform fumigation and the release of soil nitrogen: a rapid direct extraction method to measure microbial biomass nitrogen in soil. Soil Biol Biochem, 1985, 17: 837-842
CrossRef Google scholar
Campbell BJ, Yu L, Heidelberg JF, Kirchman DL. Activity of abundant and rare bacteria in a coastal ocean. Proc Natl Acad Sci USA, 2011, 108: 12776-12781
CrossRef Google scholar
Castaño C, Lindahl BD, Alday JG, Hagenbo A, Martínez de Aragón J, Parladé J, Pera J, Bonet JA. Soil microclimate changes affect soil fungal communities in a Mediterranean pine forest. New Phytol, 2018, 220: 1211-1221
CrossRef Google scholar
Cavard X, Macdonald SE, Bergeron Y, Chen HYH. Importance of mixedwoods for biodiversity conservation: evidence for understory plants, songbirds, soil fauna, and ectomycorrhizae in northern forests. Environ Rev, 2011, 19: 142-161
CrossRef Google scholar
Chen XL, Chen HYH, Chen X, Wang J, Chen B, Wang D, Guan QW. Soil labile organic carbon and carbon-cycle enzyme activities under different thinning intensities in Chinese fir plantations. Appli Soil Ecol, 2016, 107: 162-169
CrossRef Google scholar
Chen SF, Zhou YQ, Chen YR, Gu J. fastp: an ultra-fast all-in-one FASTQ preprocessor. Bioinformatics, 2018, 34(17): 884-890
CrossRef Google scholar
Chen QL, Ding J, Zhu D, Hu HW, Delgado-Baquerizo M, Ma YB, He JZ, Zhu YG. Rare microbial taxa as the major drivers of ecosystem multifunctionality in long-term fertilized soils. Soil Biol Biochem, 2020, 141
CrossRef Google scholar
Clarke KR. Non-parametric multivariate analyses of changes in community structure. Austral Ecol, 2010, 18: 117-143
CrossRef Google scholar
de Avila AL, Schwartz G, Ruschel AR, Lopes JDC, Silva JNM, Carvalho JOPD, Dormann CF, Mazzei L, Soares MHM, Bauhus J. Recruitment, growth and recovery of commercial tree species over 30 years following logging and thinning in a tropical rain forest. For Ecol Manag, 2017, 385: 225-235
CrossRef Google scholar
de Oliveira CDC, Durigan G, Putz FE. Thinning temporarily stimulates tree regeneration in a restored tropical forest. Ecol Eng, 2021, 171
CrossRef Google scholar
Deng C, Zhang SG, Lu YC, Froese RE, Xu XJ, Zeng J, Ming AG, Liu XZ, Xie YS, Li QF. Thinning effects on forest evolution in Masson pine (Pinus massoniana Lamb.) conversion from pure plantations into mixed forests. For Ecol Manag, 2020, 477: 118503
CrossRef Google scholar
Dini-Andreote F, de Cássia Pereira e Silva M, Triadó-Margarit X, Casamayor EO, van Elsas JD, Salles JF. Dynamics of bacterial community succession in a salt marsh chronosequence: evidence for temporal niche partitioning. ISME J, 2014, 8: 1989-2001
CrossRef Google scholar
Edgar RC. UPARSE: highly accurate OTU sequences from microbial amplicon reads. Nat Methods, 2013, 10(10): 996-998
CrossRef Google scholar
Fang JY, Chen AP, Peng CH, Zhao SQ, Ci LJ. Changes in forest biomass carbon storage in China between 1949 and 1998. Science, 2001, 292: 2320-2322
CrossRef Google scholar
Fierer N. Embracing the unknown: disentangling the complexities of the soil microbiome. Nat Rev Microbiol, 2017, 15: 579-590
CrossRef Google scholar
Gong C, Tan Q, Liu G, Xu M. Forest thinning increases soil carbon stocks in China. For Ecol Manag, 2021, 482
CrossRef Google scholar
Hartmann M, Frey B, Mayer J, Mäder P, Widmer F. Distinct soil microbial diversity under long-term organic and conventional farming. ISME J, 2015, 9: 1177-1194
CrossRef Google scholar
Jandl R, Bauhus J, Bolte A, Schindlbacher A, Schüler S. Effect of climate-adapted forest management on carbon pools and greenhouse gas emissions. Curr for Rep, 2015, 1: 1-7
CrossRef Google scholar
Jiao S, Chen WM, Wei GH. Biogeography and ecological diversity patterns of rare and abundant bacteria in oil-contaminated soils. Mol Ecol, 2017, 19(26): 5305-5317
CrossRef Google scholar
Jiao S, Luo YT, Lu MM, Xiao X, Lin YB, Chen WM, Wei GH. Distinct succession patterns of abundant and rare bacteria in temporal microcosms with pollutants. Environ Pollut, 2017, 225: 497-505
CrossRef Google scholar
Jiao S, Chen WM, Wang JL, Du NN, Li QP, Wei GH. Soil microbiomes with distinct assemblies through vertical soil profiles drive the cycling of multiple nutrients in reforested ecosystems. Microbiome, 2018, 6(1): 146
CrossRef Google scholar
Jiao S, Wang JM, Wei GH, Chen WM, Lu YH. Dominant role of abundant rather than rare bacterial taxa in maintaining agro-soil microbiomes under environmental disturbances. Chemosphere, 2019, 235: 248-259
CrossRef Google scholar
Jousset A, Bienhold C, Chatzinotas A, Gallien L, Gobet A, Kurm V, Kusel K, Rillig MC, Rivett DW, Salles JF, van der Heijden MGA, Youssef NH, Zhang XW, Wei Z, Hol WHG. Where less may be more: how the rare biosphere pulls ecosystems strings. ISME J, 2017, 11: 853-862
CrossRef Google scholar
Kataoka R, Takagi K, Sakakibara F. A new endosulfan-degrading fungus, Mortierella species, isolated from a soil contaminated with organochlorine pesticides. J Pestic Sci, 2010, 35(3): 326-332
CrossRef Google scholar
Kim S, Li GL, Han SH, Kim C, Lee ST, Son Y. Microbial biomass and enzymatic responses to temperate oak and larch forest thinning: influential factors for the site-specific changes. Sci Total Environ, 2019, 651: 2068-2079
CrossRef Google scholar
Koutika LS, Epron D, Bouillet JP, Mareschal L. Changes in N and C concentrations, soil acidity and P availability in tropical mixed acacia and eucalypt plantations on a nutrient-poor sandy soil. Plant Soil, 2014, 379(1–2): 205-216
CrossRef Google scholar
Lange M, Eisenhauer N, Sierra CA, Bessler H, Engels C, Griffiths RI, Mellado-Vázquez PG, Malik AA, Roy J, Scheu S, Steinbeiss S, Thomson BC, Trumbore SE, Gleixner G. Plant diversity increases soil microbial activity and soil carbon storage. Nat Commun, 2015, 6: 6707
CrossRef Google scholar
Liu CLC, Kuchma O, Krutovsky KV. Mixed-species versus monocultures in plantation forestry: development, benefits, ecosystem services and perspectives for the future. Global Ecol Conserv, 2018, 15
CrossRef Google scholar
Logares R, Audic S, Bass D, Bittner L, Boutte C, Christen R, Claverie JM, Decelle J, Dolan JR, Dunthorn M. Patterns of rare and abundant marine microbial eukaryotes. Curr Biol, 2014, 24: 813-821
CrossRef Google scholar
Lorenz M, Thiele-Bruhn S. Tree species affect soil organic matter stocks and stoichiometry in interaction with soil microbiota. Geoderma, 2019, 353: 35-46
CrossRef Google scholar
Lozupone C, Knight R. UniFrac: a new phylogenetic method for comparing microbial communities. Appl Environ Microb, 2006, 71: 8228-8235
CrossRef Google scholar
Lull C, Bautista I, Lidón A, Campo ADD, González-Sanchis M, García-Prats A. Temporal effects of thinning on soil organic carbon pools, basal respiration and enzyme activities in a Mediterranean Holm oak forest. For Ecol Manag, 2020, 464: 118088
CrossRef Google scholar
Mahayani NPD, Slik FJW, Webb EL, Savini T, Gale GA. Changes in tree functional composition and forest functioning ten years after logging and thinning interventions in Bornean tropical forests. For Ecol Manag, 2022, 506
CrossRef Google scholar
Nemergut DR, Knelman JE, Ferrenberg S, Bilinski T, Melbourne B, Jiang L, Violle C, Darcy JL, Prest T, Schmidt SK, Townsend AR. Decreases in average bacterial community rRNA operon copy number during succession. ISME J, 2016, 10: 1147-1156
CrossRef Google scholar
Park J, Kim T, Moon M, Cho S, Ryu D, Kim HS. Effects of thinning intensities on tree water use, growth, and resultant water use efficiency of 50-year-old Pinus koraiensis forest over four years. For Ecol Manag, 2018, 408: 121-128
CrossRef Google scholar
Pedrós-Alió C. Marine microbial diversity: can it be determined?. Trends Microbiol, 2006, 14(6): 257-263
CrossRef Google scholar
Powell JR, Karunaratne S, Campbell CD, Yao H, Robinson L, Singh BK. Deterministic processes vary during community assembly for ecologically dissimilar taxa. Nat Commun, 2015, 6: 8444
CrossRef Google scholar
Ren CJ, Liu WC, Zhan FZ, Zhong ZK, Deng J, Han XH, Yang GH, Feng YZ, Ren GX. Soil bacterial and fungal diversity and compositions respond differently to forest development. CATENA, 2019, 181
CrossRef Google scholar
Ruiz-Blandon BA, Salcedo-Pérez E, Rodríguez-Macías R, Hernández-Álvarez E, Campo J, Merino A. Growth, biomass, carbon and nutrient pools in Gmelina arborea established in pure and mixed forest stand production systems in Mexico. New for, 2022, 53: 735-757
CrossRef Google scholar
Shen ZZh, Xue C, Penton CR, Thomashow LS, Zhang N, Wang BB, Ruan YZ, Li R, Shen QR. Suppression of banana Fusarium wilt disease induced by soil microbiome reconstruction through an integrated agricultural strategy. Soil Biol Biochem, 2019, 128: 164-174
CrossRef Google scholar
Song M, Peng WX, Zeng FP, Du H, Peng Q, Xu QG, Chen L, Zhang F. Spatial patterns and drivers of microbial taxa in a karst broadleaf forest. Front Microbiol, 2018, 9: 1691
CrossRef Google scholar
Swinfield T, Afriandi R, Antoni F, Harrison RD. Accelerating tropical forest restoration through the selective removal of pioneer species. For Ecol Manag, 2016, 381: 209-216
CrossRef Google scholar
Uhlík O, Jecná K, Leigh MB, Macková M, Macek T. DNA-based stable isotope probing: a link between community structure and function. Sci Total Environ, 2009, 407: 3611-3619
CrossRef Google scholar
Umaña MN, Zhang C, Cao M, Lin L, Swenson NG. Commonness, rarity, and intraspecific variation in traits and performance in tropical tree seedlings. Ecol Lett, 2015, 18: 1329-1337
CrossRef Google scholar
Vance ED, Brookes PC, Jenkinson DS. An extraction method for measuring soil microbial C. Soil Biol Biochem, 1987, 19: 703-707
CrossRef Google scholar
Wagg C, Bender SF, Widmer F, van der Heijden MG. Soil biodiversity and soil community composition determine ecosystem multifunctionality. Proc Natl Acad Sci USA, 2014, 111: 5266-5270
CrossRef Google scholar
Wagg C, Hautier Y, Pellkofer S, Banerjee S, Schmid B, van der Heijden MGA. Diversity and asynchrony in soil microbial communities stabilizes ecosystem functioning. Elife, 2021, 10: 62813
CrossRef Google scholar
Wang Q, Garrity GM, Tiedje JM, Cole JR. Naïve Bayesian classifier for rapid assignment of rRNA sequences into the new bacterial taxonomy. Appl Environ Microbiol, 2007, 73: 5261-5267
CrossRef Google scholar
Xu HF, Du H, Zeng FP, Song TQ, Peng WX. Diminished rhizosphere and bulk soil microbial abundance and diversity across succession stages in Karst area, southwest China. Appl Soil Ecol, 2021, 158: 103799
CrossRef Google scholar
Yang G, Wagg C, Veresoglou SD, Hempel S, Rillig MC. How soil biota drive ecosystem stability. Trends Plant Sci, 2018, 23: 1057-1067
CrossRef Google scholar
Yang GW, Liu N, Lu WJ, Wang S, Kan HM, Zhang YJ, Xu L, Chen YL. The interaction between arbuscular mycorrhizal fungi and soil phosphorus availability influences plant community productivity and ecosystem stability. J Ecol, 2014, 102: 1072-1082
CrossRef Google scholar
Yang GW, Yang X, Zhang WJ, Wei YQ, Ge G, Lu WJ, Sun JJ, Liu N, Kan HM, Shen Y, Zhang YJ. Arbuscular mycorrhizal fungi affect plant community structure under various nutrient conditions and stabilize the community productivity. Oikos, 2016, 125: 576-585
CrossRef Google scholar
Zhang C, Liu GB, Xue S, Wang GL. Soil bacterial community dynamics reflect changes in plant community and soil properties during the secondary succession of abandoned farmland in the Loess Plateau. Soil Biol Biochem, 2016, 97: 40-49
CrossRef Google scholar
Zhang XZ, Guan DX, Li WB, Sun D, Jin CJ, Yuan FH, Wang AZ, Wu JB. The effects of forest thinning on soil carbon stocks and dynamics: a meta-analysis. For Ecol Manage, 2018, 429: 36-43
CrossRef Google scholar
Zhao ZY, Ma YT, Feng TY, Kong X, Wang ZH, Zheng W, Zhai BN. Assembly processes of abundant and rare microbial communities in orchard soil under a cover crop at different periods. Geoderma, 2022, 406
CrossRef Google scholar
Zhou T, Wang CK, Zhou ZH. Impacts of forest thinning on soil microbial community structure and extracellular enzyme activities: a global meta-analysis. Soil Biol Biochem, 2020, 149: 107915
CrossRef Google scholar
Zhou T, Wang CK, Zhou ZH. Thinning promotes the nitrogen and phosphorus cycling in forest soils. Agr Forest Meteorol, 2021, 311
CrossRef Google scholar
Zhou ZH, Wang CK, Jin Y, Sun ZH. Impacts of thinning on soil carbon and nutrients and related extracellular enzymes in a larch plantation. For Ecol Manag, 2019, 450
CrossRef Google scholar
Zhou ZH, Wang CK, Luo YQ. Meta-analysis of the impacts of global change factors on soil microbial diversity and functionality. Nat Commun, 2020, 11: 3072
CrossRef Google scholar
Zhou ZH, Wang CK, Ren CJ, Sun ZH. Effects of thinning on soil saprotrophic and ectomycorrhizal fungi in a Korean larch plantation. For Ecol Manag, 2020, 461
CrossRef Google scholar
Zhu NY, Zhang XC, Yang SS, Li CQ, Qiao J, Tang J. Photic biofilms mediated distant nitrate reduction at the soil–water interface of paddy fields. ACS Earth Space Chem, 2021, 5: 1163-1171
CrossRef Google scholar
Zhu YH, Zhao BQ, Zhu ZT, Jia B, Xu WZ, Liu MQ, Gao LS, Gregoire TG. The effects of crop tree thinning intensity on the ability of dominant tree species to sequester carbon in a temperate deciduous mixed forest, northern China. For Ecol Manag, 2022, 505
CrossRef Google scholar
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