Habitats shape root-associated fungal and bacterial communities of Minjiang fir saplings

doi:10.1007/s11676-023-01609-2

Abstract

Abstract:

Root-associated microbes play an essentialrole in mediating plant growth, health, and habitat adaptability. However, it is unknown which microbial taxa help develop host fitness and how habitats shape root-associated microbial assembly patterns. As an endemic species of subalpine forests in western Sichuan, China, Minjiang fir (Abies fargesii var. faxoniana) is dominant on cold-shaded northwestern slopes while absent on warm sunlit southwestern slopes. In this study, fungal and bacterial communities were investigated in three spatial compartments (endosphere, rhizosphere, and bulk soil) associated with Minjiang fir saplings on a cold-shaded northwestern slope and a warm sunlit southwestern slope. Habitats differentiated the microbial communities regardless of the spatial compartment and microbial taxa. Slope aspect variations caused shifts in root-associated (rhizosphere and endosphere) microbial compositions. Compared with the southwestern slope, the cold-shaded northwestern slope harbored a higher abundance of the growth-promoting bacteria Burkholderia and ectomycorrhizal fungi Cortinarius and Piloderma. The slope aspect had stronger effects on fungal diversity than bacterial diversity, with higher fungal endemism and lower bacterial endemism. Slope aspect variations were the dominant drivers of root-associated microbial communities, with lower contribution by soil properties and higher contribution by plant traits on the northwestern slope. Findings from this study could improve the understanding of plant habitat adaptability from the perspective of microbial community assembly. It is suggested that forest management should consider root-associated microbiomes for enhancing species fitness and habitat adaptability.

Key words: Species fitness, Root-associated microbes, Microbial assembly patterns, Habitat conditions

Maoping Li, Ning Miao, Shirong Liu. Habitats shape root-associated fungal and bacterial communities of Minjiang fir saplings[J]. JOURNAL OF FORESTRY RESEARCH, 2023, 34(5): 1491-1502.

Maoping Li, Ning Miao, Shirong Liu. [J]. 林业研究(英文版), 2023, 34(5): 1491-1502.

References 65

1	Almario J, Jeena G, Wunder J, Langen G, Zuccaro A, Coupland G, Bucher M. Root-associated fungal microbiota of nonmycorrhizal Arabis alpina and its contribution to plant phosphorus nutrition. PNAS, 2017, 114: 9403-9412, DOI
2	Bach E, Sant'Anna FH, Seger GDS, Passaglia LMP. Pangenome inventory of Burkholderia sensu lato, Burkholderia sensu stricto, and the Burkholderia cepacia complex reveals the uniqueness of Burkholderia catarinensis. Genomics, 2022, 114: 398-408, DOI
3	Badri DV, Vivanco JM. Regulation and function of root exudates. Plant Cell Environ, 2009, 32: 666-681, DOI
4	Benning JW, Moeller DA. Plant-soil interactions limit lifetime fitness outside a native plant’s geographic range margin. Ecology, 2020, 102: e03254
5	Bödeker ITM, Clemmensen KE, Boer Wd, Martin F, Olson Å, Lindahl BD. Ectomycorrhizal Cortinarius species participate in enzymatic oxidation of humus in northern forest ecosystems. New Phytol, 2014, 203: 245-256, DOI
6	Bray J, Curtis J. An ordination of the upland forest communities of southern Wisconsin. Ecol Monogr, 1957, 27: 325-349, DOI
7	Broeckling CD, Broz AK, Bergelson J, Manter DK, Vivanco JM. Root exudates regulate soil fungal community composition and diversity. Appl Environ Microb, 2008, 74: 738-744, DOI
8	Bulgarelli D, Schlaeppi K, Spaepen S, Themaat EVLV, Schulze-Lefert P. Structure and functions of the bacterial microbiota of plants. Annu Rev Plant Biol, 2013, 64: 807-838, DOI
9	Caporaso JG, Bittinger K, Bushman F, DeSantis T, Andersen G, Knight R. PyNAST: a flexible tool for aligning sequences to a template alignment. Bioinformatics, 2010, 26: 266-267, DOI
10	Chai YX, Jiang SJ, Guo WJ, Qin MS, Pan JB, Bahadur A, Shi GX, Luo JJ, Jin ZC, Liu YJ, Zhang Q, An LZ, Feng HY. The effect of slope aspect on the phylogenetic structure of arbuscular mycorrhizal fungal communities in an alpine ecosystem. Soil Biol Biochem, 2018, 126: 103-113, DOI
11	Chen SM, Waghmode TR, Sun RB, Kuramae EE, Hu CS, Liu BB. Root-associated microbiomes of wheat under the combined effect of plant development and nitrogen fertilization. Microbiome, 2019, 7: 136-148, DOI
12	Classen A, Demarco J, Hart S, Whitham T, Cobb N, Koch G. Impacts of herbivorous insects on decomposer communities during the early stages of primary succession in a semi-arid woodland. Soil Biol Biochem, 2006, 38: 972-982, DOI
13	Coleman-Derr D, Desgarennes D, Fonseca-Garcia C, Gross S, Clingenpeel S, Woyke T, North G, Visel A, Partida-Martinez LP, Tringe SG. Plant compartment and biogeography affect microbiome composition in cultivated and native Agave species. New Phytol, 2016, 209: 798-811, DOI
14	Compant S, Reiter B, Sessitsch A, Nowak J, Clement C, Ait Barka E. Endophytic colonization of Vitis vinifera L. by plant growth-promoting bacterium Burkholderia sp. strain PsJN. Appl Environ Microb, 2005, 71: 1685-1693, DOI
15	Cregger MA, Schadt CW, McDowell NG, Pockman WT, Classen AT. Response of the soil microbial community to changes in precipitation in a semiarid ecosystem. Appl Environ Microbiol, 2012, 78: 8587-8594, DOI
16	Edwards J, Johnson C, Santos-Medellín C, Lurie E, Podishetty NK, Bhatnagar S, Eisen JA, Sundaresan V. Structure, variation, and assembly of the root-associated microbiomes of rice. PNAS, 2015, 112: 911-920, DOI
17	Estrada-De Los Santos P, Bustillos-Cristales R, Caballero-Mellado J. Burkholderia, a genus rich in plant-associated nitrogen fixers with wide environmental and geographic distribution. Appl Environ Microb, 2001, 67: 2790-2798, DOI
18	Fierer N, Jackson RB. The diversity and biogeography of soil bacterial communities. PNAS, 2006, 103: 626-631, DOI
19	Fitzpatrick CR, Copelandc J, Wang PW, Guttman DS, Kotanen PM, Johnson MTJ. Assembly and ecological function of the root microbiome across angiosperm plant species. PNAS, 2018, 115: 1-9, DOI
20	Foster JS, Green SJ, Ahrendt SR, Golubic S, Reid RP, Hetherington KL, Bebout L. Molecular and morphological characterization of cyanobacterial diversity in the stromatolites of Highborne Cay, Bahamas. ISME J, 2009, 3: 573-587, DOI
21	George PBL, Lallias D, Creer S, Seaton FM, Kenny JG, Eccles RM, Griffiths RI, Lebron I, Emmett BA, Robinson DA, Jones DL. Divergent national-scale trends of microbial and animal biodiversity revealed across diverse temperate soil ecosystems. Nat Commun, 2019, 10(1): 1107, DOI
22	Glowa KR, Arocena JM, Massicotte HB. Extraction of potassium and/or magnesium from selected soil minerals by Piloderma. Geomicrobiol J, 2003, 20: 99-111, DOI
23	Goldmann K, Boeddinghau RS, Klemmer S, Regan KM, Heintz-Buschart A, Fischer M, Prati D, Piepho HP, Berner D, Marhan S, Kandeler E, Buscot F, Wubet T. Unraveling spatiotemporal variability of arbuscular mycorrhizal fungi in a temperate grassland plot. Environ Microbiol, 2020, 22: 873-888, DOI
24	Griffiths RI, Thomson BC, James P, Bell T, Bailey M, Whiteley AS. The bacterial biogeography of British soils. Environ Microbiol, 2011, 13: 1642-1654, DOI
25	Guo MM, Zhang YD, Wang XC, Gu FX, Liu SR. The responses of dominant tree species to climate warming at the treeline on the eastern edge of the Tibetan Plateau. Forest Ecol Manag, 2018, 425: 21-26, DOI
26	Guo MM, Zhang YD, Liu SR, Gu FX, Wang XC, Li ZS, Shi CM, Fan ZX. Divergent growth between spruce and fir at alpine tree lines on the east edge of the Tibetan Plateau in response to recent climate warming. Agr Forest Meteorol, 2019, 276–277: 107631, DOI
27	Guo JJ, Ling N, Li Y, Li KS, Ning HL, Shen QR, Guo SW, Vandenkoornhuyse P. Seed-borne, endospheric and rhizospheric core microbiota as predictors of plant functional traits across rice cultivars are dominated by deterministic processes. New Phytol, 2021, 230: 2047-2060, DOI
28	Guyonnet JP, Guillemet M, Dubost A, Simon L, Ortet P, Barakat M, Heulin T, Achouak W, FeZ H. Plant nutrient resource use strategies shape active rhizosphere microbiota through root exudation. Front Plant Sci, 2018, 9: 1662, DOI
29	Haney CH, Samuel BS, Bush J, Ausubel FM. Associations with rhizosphere bacteria can confer an adaptive advantage to plants. PNAS, 2015, 1(6): 15051
30	Jaccard P. The distribution of the flora in the alpine zone. New Phytol, 1912, 11: 37-50, DOI
31	Jiang YX. Study of habitat types highly concentrated in forest area of Sichuan province. Scientia Silvae Sinicae, 1963, 8: 321-335 (in Chinese)
32	Jones DL, Hodge A, Kuzyakov Y. Plant and mycorrhizal regulation of rhizodeposition. New Phytol, 2004, 163: 459-480, DOI
33	Kang YY. Spatial distribution pattern of Abies faxoniana in northwestern Sichuan. J Southwest for Univ, 2015, 35: 31-36 (in Chinese)
34	Kunapuli U, Lueders T, Meckenstock RU. The use of stable isotope probing to identify key iron-reducing microorganisms involved in anaerobic benzene degradation. ISME J, 2007, 1: 643-653, DOI
35	Lankau RA, Keymer DP. Ectomycorrhizal fungal richness declines towards the host species’ range edge. Mol Ecol, 2016, 25: 3224-3241, DOI
36	Lareen A, Burton F, Scha¨fer P, . Plant root-microbe communication in shaping root microbiomes. Plant Mol Biol, 2016, 90: 575-587, DOI
37	Lau JA, Lennon JT. Rapid responses of soil microorganisms improve plant fitness in novel environments. PNAS, 2012, 109: 14058-14062, DOI
38	Li H, Qu JP, Li TT, Li JB, Lin Q, Li XZ. Pika population density is associated with composition and diversity of gut microbiota. Front Microbiol, 2016, 7(758): 1169
39	Lindahl BD, Kyaschenko J, Varenius K, Clemmensen KE, Dahlberg A, Karltun E, Stendahl J. A group of ectomycorrhizal fungi restricts organic matter accumulation in boreal forest. Ecol Lett, 2021, 24: 1341-1351, DOI
40	Liu SR, Sun PS, Wang JX, Chen LW. Hydrological functions of forest vegetation in upper reaches of the Yangtze River. J Nat Resour, 2001, 16(5): 451-456 (in Chinese)
41	Liu YJ, Shi GX, Mao L, Cheng G, Jiang SJ, Ma XJ, An LZ, Du GZ, Collins JN, Feng HY. Direct and indirect influences of 8 year of nitrogen and phosphorus fertilization on Glomeromycota in an alpine meadow ecosystem. New Phytol, 2012, 194: 523-535, DOI
42	Lugtenberg B, Kamilova F. Plant-growth-promoting rhizobacteria. Annu Rev Microbiol, 2009, 63: 541-556, DOI
43	Marupakula S, Mahmood S, Finlay RD. Analysis of single root tip microbiomes suggests that distinctive bacterial communities are selected by Pinus sylvestris roots colonized by different ectomycorrhizal fungi. Environ Microbiol, 2016, 18: 1470-1483, DOI
44	Meier MA, Xu G, Lopez-Guerrero MG, Li G, Smith C, Sigmon B, Herr JR, Alfano JR, Ge Y, Schnable JC, Yang J. Association analyses of host genetics, root-colonizing microbes, and plant phenotypes under different nitrogen conditions in maize. Elife, 2022, 11: e75790, DOI
45	Meiser A, Balint M, Schmitt I. Meta-analysis of deep-sequenced fungal communities indicates limited taxon sharing between studies and the presence of biogeographic patterns. New Phytol, 2014, 201: 623-635, DOI
46	Mueller TL, Elena K-A, Moeller DA, Bellemare J. Of mutualism and migration: will interactions with novel ericoid mycorrhizal communities help or hinder northward Rhododendron range shifts?. Oecologia, 2022, 198: 839-852, DOI
47	Nuccio EE, Anderson-Furgeson J, Estera KY, Pett-Ridge J, De Valpine P, Brodie EL, Firestone MK. Climate and edaphic controllers influence rhizosphere community assembly for a wild annual grass. Ecology, 2016, 97: 1307-1318, DOI
48	Petipas RH, Wruck AC, Geber MA. Microbe-mediated local adaptation to limestone barrens is context dependent. Ecology, 2020, 101: e03092, DOI
49	Prudence SMM, Newitt JT, Worsley SF, Macey MC, Murrell JC, Lehtovirta-Morley LE, Hutchings MI. Soil, senescence and exudate utilisation: characterisation of the Paragon var. spring bread wheat root microbiome. Environ Microb, 2021, 16(1): 12, DOI
50	Rizaludin MS, Stopnisek N, Raaijmakers JM, Garbeva P. The chemistry of stress: understanding the ‘cry for help’ of plant roots. Metabolites, 2021, 11(6): 357, DOI
51	Sessitsch A, Coenye T, Sturz A, Vandamme P, Barka EA, Salles JF, Elsas JDv, Faure D, Mitter B, Glick BR, Wang-Pruski G, Nowak J, . Burkholderia phytofirmans sp. nov., a novel plant-associated bacterium with plant-beneficial properties. Int J Syst Evol Microbiol, 2005, 55: 1187-1192, DOI
52	Shen CC, Xiong JB, Zhang HY, Feng YZ, Lin XG, Li XY, Liang WJ, Chu HY. Soil pH drives the spatial distribution of bacterial communities along elevation on Changbai Mountain. Soil Biol Biochem, 2013, 57: 204-211, DOI
53	Sidari M, Ronzello G, Vecchio G, Muscolo A. Influence of slope aspects on soil chemical and biochemical properties in a Pinus laricio forest ecosystem of Aspromonte (Southern Italy). Eu J Soil Biol, 2008, 44: 364-372, DOI
54	Talbot JM, Bruns TD, Taylor JW, Smith DP, Branco S, Glassman SI, Erlandson S, Vilgalys R, Liao HL, Smith ME, Peay KG. Endemism and functional convergence across the North American soil mycobiome. PNAS, 2014, 111: 6341-6346, DOI
55	Tamaki H, Wright C, Li X, Lin Q, Hwang C, Wang S, Thimmapuram J, Kamagata Y, Liu W. Analysis of 16S rRNA amplicon sequencing options on the roche/454 Next-generation titanium sequencing platform. PLoS ONE, 2011, 6(9): e25263, DOI
56	Teasdale SE, Beulke AK, Guy PL, Orlovich DA. Environmental barcoding of the ectomycorrhizal fungal genus Cortinarius. Fungal Divers, 2013, 58: 299-310, DOI
57	Wan XH, Chen XL, Huang ZQ, Chen HYH. Contribution of root traits to variations in soil microbial biomass and community composition. Plant Soil, 2021, 460: 483-495, DOI
58	Wang J, Liao LR, Wang GL, Liu HF, Wu Y, Liu GB, Zhang C. N-induced root exudates mediate the rhizosphere fungal assembly and affect species coexistence. Sci Total Environ, 2022, 804: 150148, DOI
59	Wang J, Liao LR, Ye ZC, Liu HF, Zhang C, Zhang L, Liu GB, Wang GL. Different bacterial co-occurrence patterns and community assembly between rhizosphere and bulk soils under N addition in the plant-soil system. Plant Soil, 2022, 471: 1-17, DOI
60	Yang JW, Wang SJ, Su WH, Yu QL, Wang XC, Han Q, Zheng YT, Qu JP, Li XZ, Li H. Animal activities of the key herbivore plateau pika (Ochotona curzoniae) on the Qinghai-Tibetan Plateau affect grassland microbial networks and ecosystem functions. Front Microbiol, 2022, 13: 950811, DOI
61	Yimer F, Ledin S, Abdelkadir A. Soil property variations in relation to topographic aspect and vegetation community in the south-eastern highlands of Ethiopia. Forest Ecol Manag, 2006, 232: 90-99, DOI
62	Zhang YD, Liu SR, Zhao CM. Spatial pattern of sub-alpine forest restoration in west Sichuan. Chin J Appl Ecol, 2005, 16: 1706-1710 (in Chinese)
63	Zhang YD, Liu SR, Gu FX. The impact of forest vegetation change on water yield in the subalpine region of southwestern China. Acta Ecol Sin, 2011, 31: 7601-7608 (in Chinese)
64	Zhang YZ, Xu J, Riera N, Jin T, Li JY, Wang N. Huanglongbing impairs the rhizosphere-to-rhizoplane enrichment process of the citrus root-associated microbiome. Microbiome, 2017, 5: 97-113, DOI
65	Zhou JZ, Deng Y, Shen LN, Wen CQ, Yan QY, Ning DL, Qin YJ, Xue K, Wu LY, He ZL, Voordeckers JW, Nostrand JD, Buzzard V, Michaletz ST, Enquist BJ, Weiser MD, Kaspari M, Waide R, Yang YF, Brown JH. Temperature mediates continental-scale diversity of microbes in forest soils. Nat Commun, 2016, 7: 12083, DOI