Arbuscular mycorrhizal symbiosis on serpentine soils: the effect of native fungal communities on different Knautia arvensis ecotypes

Doubková, Pavla1,2, Suda, Jan2,3, Sudová, Radka2
1Department of Experimental Plant Biology, Faculty of Science, Charles University in Prague, Prague 2, Czech Republic
2Institute of Botany, Academy of Sciences of the Czech Republic, Průhonice, Czech Republic
3Department of Botany, Faculty of Science, Charles University in Prague, Prague 2, Czech Republic

Tóm tắt

Serpentine soils represent a unique environment that imposes multiple stresses on vegetation (low Ca/Mg ratios, macronutrient deficiencies, elevated heavy metal concentrations and drought). Under these conditions, a substantial role of arbuscular mycorrhizal (AM) symbiosis can be anticipated due to its importance for plant nutrition and stress alleviation. We tested whether serpentine and non-serpentine populations of Knautia arvensis (Dipsacaceae) differ in the benefits derived from native AM fungal communities. Four serpentine and four non-serpentine populations were characterised in terms of mycorrhizal colonisation and soil characteristics. The serpentine populations showed significantly lower mycorrhizal colonisation than their non-serpentine counterparts. The mycorrhizal colonisation positively correlated with soil pH, Ca and K concentrations and Ca/Mg ratio. Seedlings from each population were then grown for 3 months in their sterilised native substrates, either uninoculated or reinoculated with native AM fungi. Two serpentine and two non-serpentine populations responded positively to mycorrhizal inoculation, while no significant change in plant growth was observed in the remaining populations. Contrary to our hypothesis, serpentine populations of K. arvensis did not show higher mycorrhizal growth dependence than non-serpentine populations when grown in their native soils and inoculated with native AM fungi.

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citation_journal_title=Aust J Soil Res; citation_title=The effect of soil pH on the formation of VA mycorrhizas by 2 species of Glomus ; citation_author=LK Abbott, AD Robson; citation_volume=23; citation_publication_date=1985; citation_pages=253-261; citation_doi=10.1071/SR9850253; citation_id=CR1

citation_journal_title=Acta Oecol; citation_title=Mycorrhizas and seedling growth of slow-growing sclerophylls from nutrient-poor environments; citation_author=N Allsopp, WD Stock; citation_volume=14; citation_publication_date=1993; citation_pages=577-587; citation_id=CR2

citation_journal_title=Plant Soil; citation_title=Relationships between Ni-hyperaccumulation and mycorrhizal status of different endemic plant species from New Caledonian ultramafic soils; citation_author=H Amir, N Perrier, F Rigault, T Jaffre; citation_volume=293; citation_publication_date=2007; citation_pages=23-35; citation_doi=10.1007/s11104-007-9238-0; citation_id=CR3

citation_journal_title=Mycorrhiza; citation_title=Tolerance and induction of tolerance to Ni of arbuscular mycorrhizal fungi from New Caledonian ultramafic soils; citation_author=H Amir, DA Jasper, LK Abbott; citation_volume=19; citation_publication_date=2008; citation_pages=1-6; citation_doi=10.1007/s00572-008-0197-y; citation_id=CR4

citation_journal_title=Biol Fertil Soils; citation_title=The effect of vesicular-arbuscular mycorrhizae in decreasing Ca acquisition by alfalfa plants in calcareous soils; citation_author=R Azcón, JM Barea; citation_volume=13; citation_publication_date=1992; citation_pages=155-159; citation_id=CR5

citation_journal_title=Plant Soil; citation_title=Characterisation of arbuscular mycorrhizal fungi colonisation in cluster roots of Hakea verrucosa F. Muell (Proteaceae), and its effect on growth and nutrient acquisition in ultramafic soil; citation_author=FM Boulet, H Lambers; citation_volume=269; citation_publication_date=2005; citation_pages=357-367; citation_doi=10.1007/s11104-004-0908-x; citation_id=CR6

citation_journal_title=Annu Rev Ecol Evol Syst; citation_title=Evolutionary ecology of plant adaptation to serpentine soils; citation_author=KU Brady, AR Kruckeberg, HD Bradshaw; citation_volume=36; citation_publication_date=2005; citation_pages=243-266; citation_doi=10.1146/annurev.ecolsys.35.021103.105730; citation_id=CR7

citation_journal_title=Ecology; citation_title=Intraspecific AM fungal variation contributes to plant-fungal feedback in a serpentine grassland; citation_author=JP Castelli, BB Casper; citation_volume=84; citation_publication_date=2003; citation_pages=323-336; citation_doi=10.1890/0012-9658(2003)084[0323:IAFVCT]2.0.CO;2; citation_id=CR8

citation_journal_title=Plant Biol; citation_title=Effects of nutrient addition on community productivity and structure of serpentine vegetation; citation_author=A Chiarucci, S Maccherini, I Bonini, V Dominicis; citation_volume=1; citation_publication_date=1999; citation_pages=121-126; citation_doi=10.1111/j.1438-8677.1999.tb00718.x; citation_id=CR9

citation_journal_title=J Plant Nutr; citation_title=Mineral acquisition by arbuscular mycorrhizal plants; citation_author=RB Clark, SK Zeto; citation_volume=23; citation_publication_date=2000; citation_pages=867-902; citation_doi=10.1080/01904160009382068; citation_id=CR10

citation_journal_title=Environ Pollut; citation_title=Testing nickel tolerance of Sorghastrum nutans and its associated soil microbial community from serpentine and prairie soils; citation_author=JH Doherty, BM Ji, BB Casper; citation_volume=151; citation_publication_date=2008; citation_pages=593-598; citation_doi=10.1016/j.envpol.2007.04.002; citation_id=CR11

citation_journal_title=Plant Soil; citation_title=Serpentine soil has little influence on the root-associated microbial community composition of the serpentine tolerant grass species Avenula sulcata ; citation_author=MS Fitzsimons, RM Miller; citation_volume=330; citation_publication_date=2010; citation_pages=393-405; citation_doi=10.1007/s11104-009-0213-9; citation_id=CR12

citation_journal_title=S Afr J Sci; citation_title=Arbuscular mycorrhizas of Festuca brigantina, an endemic serpentinophyte from Portugal; citation_author=SC Goncalves, MA Martins-Loucao, H Freitas; citation_volume=97; citation_publication_date=2001; citation_pages=571-572; citation_id=CR13

citation_journal_title=Plant Soil; citation_title=Nutrient addition affects AM fungal performance and expression of plant/fungal feedback in three serpentine grasses; citation_author=DJ Gustafson, BB Casper; citation_volume=259; citation_publication_date=2004; citation_pages=9-17; citation_doi=10.1023/B:PLSO.0000020936.56786.a4; citation_id=CR14

citation_journal_title=Plant Soil; citation_title=Vesicular-arbuscular mycorrhizal infection in lettuce (Lactuca sativa) in relation to calcium supply; citation_author=CM Hepper, J Oshea; citation_volume=82; citation_publication_date=1984; citation_pages=61-68; citation_doi=10.1007/BF02220770; citation_id=CR15

citation_journal_title=Experientia; citation_title=Mycorrhizas and root architecture; citation_author=BAD Hetrick; citation_volume=47; citation_publication_date=1991; citation_pages=355-362; citation_doi=10.1007/BF01972077; citation_id=CR16

citation_journal_title=Can J Bot; citation_title=Mycorrhizae in a California serpentine grassland community; citation_author=NA Hopkins; citation_volume=65; citation_publication_date=1987; citation_pages=484-487; citation_doi=10.1139/b87-059; citation_id=CR17

citation_journal_title=Mycorrhiza; citation_title=Tissue magnesium and calcium affect arbuscular mycorrhiza development and fungal reproduction; citation_author=AG Jarstfer, P Farmer-Koppenol, DM Sylvia; citation_volume=7; citation_publication_date=1998; citation_pages=237-242; citation_doi=10.1007/s005720050186; citation_id=CR18

citation_title=The soil resource: origin and behavior; citation_publication_date=1980; citation_id=CR19; citation_author=H Jenny; citation_publisher=Springer

citation_journal_title=Ecology; citation_title=Evidence for ecological matching of whole AM fungal communities to the local plant-soil environment; citation_author=BM Ji, SP Bentivenga, BB Casper; citation_volume=91; citation_publication_date=2010; citation_pages=3037-3046; citation_doi=10.1890/09-1451.1; citation_id=CR20

citation_journal_title=J Ecol; citation_title=Growth of serpentine and non-serpentine races of Festuca rubra in solutions simulating the chemical conditions in a toxic serpentine soil; citation_author=WR Johnston, J Proctor; citation_volume=69; citation_publication_date=1981; citation_pages=855-869; citation_doi=10.2307/2259641; citation_id=CR21

citation_journal_title=J Range Manag; citation_title=Physiological responses of 6 wheatgrass cultivars to mycorrhizae; citation_author=DJ Jun, EB Allen; citation_volume=44; citation_publication_date=1991; citation_pages=336-341; citation_doi=10.2307/4002395; citation_id=CR22

citation_journal_title=Preslia; citation_title=Relict serpentine populations of Knautia arvensis s.l. (Dipsacaceae) in the Czech Republic and an adjacent area of Germany; citation_author=Z Kaplan; citation_volume=70; citation_publication_date=1998; citation_pages=21-31; citation_id=CR23

citation_journal_title=Biol Rev; citation_title=Hypotheses, mechanisms and trade-offs of tolerance and adaptation to serpentine soils: from species to ecosystem level; citation_author=E Kazakou, PG Dimitrakopoulos, AJM Baker, RD Reeves, AY Troumbis; citation_volume=83; citation_publication_date=2008; citation_pages=495-508; citation_id=CR24

citation_journal_title=New Phytol; citation_title=Spatial variation in inoculum potential of vesicular arbuscular mycorrhizal fungi caused by formation of gopher mounds; citation_author=RT Koide, HA Mooney; citation_volume=107; citation_publication_date=1987; citation_pages=173-182; citation_doi=10.1111/j.1469-8137.1987.tb04891.x; citation_id=CR25

citation_journal_title=Ann Bot; citation_title=Towards resolving the Knautia arvensis agg. (Dipsacaceae) puzzle: primary and secondary contact zones and ploidy segregation at landscape and microgeographic scales; citation_author=F Kolář, M Štech, P Trávníček, J Rauchová, T Urfus, P Vít, M Kubešová, J Suda; citation_volume=103; citation_publication_date=2009; citation_pages=963-974; citation_doi=10.1093/aob/mcp016; citation_id=CR26

citation_journal_title=Mycol Res; citation_title=A modified procedure for staining roots to detect VA mycorrhizas; citation_author=RE Koske, JN Gemma; citation_volume=92; citation_publication_date=1989; citation_pages=486-505; citation_doi=10.1016/S0953-7562(89)80195-9; citation_id=CR27

citation_journal_title=New Phytol; citation_title=Direct and indirect effects of VA mycorrhizal fungi and rhizosphere microorganisms on acquisition of mineral nutrients by maize (Zea mays L.) in a calcareous soil; citation_author=SK Kothari, H Marschner, V Romheld; citation_volume=116; citation_publication_date=1990; citation_pages=637-645; citation_doi=10.1111/j.1469-8137.1990.tb00549.x; citation_id=CR28

citation_journal_title=Can J Microbiol; citation_title=New insights into the mycorrhizal status of Cyperaceae from ultramafic soils in New Caledonia; citation_author=A Lagrange, M Ducousso, P Jourand, C Majorel, H Amir; citation_volume=57; citation_publication_date=2011; citation_pages=21-28; citation_doi=10.1139/W10-096; citation_id=CR29

citation_journal_title=Mycorrhiza; citation_title=Effect of heavy metal pollution on mycorrhizal colonization and function: physiological, ecological and applied aspects; citation_author=C Leyval, K Turnau, K Haselwandter; citation_volume=7; citation_publication_date=1997; citation_pages=139-153; citation_doi=10.1007/s005720050174; citation_id=CR30

citation_journal_title=Soil Sci Soc Am J; citation_title=Development of a DTPA soil test for zinc, iron, manganese, and copper; citation_author=WL Lindsay, WA Norvell; citation_volume=42; citation_publication_date=1978; citation_pages=421-428; citation_doi=10.2136/sssaj1978.03615995004200030009x; citation_id=CR31

citation_journal_title=Plant Soil; citation_title=Mycorrhizae formation and nutrient uptake of new corn (Zea mays L.) hybrids with extreme canopy and leaf architecture as influenced by soil N and P levels; citation_author=A Liu, C Hamel, RI Hamilton, DL Smith; citation_volume=221; citation_publication_date=2000; citation_pages=157-166; citation_doi=10.1023/A:1004777821422; citation_id=CR32

citation_journal_title=Can J Soil Sci; citation_title=Concentrations of K, Ca and Mg in maize colonized by arbuscular mycorrhizal fungi under field conditions; citation_author=A Liu, C Hamel, A Elmi, C Costa, B Ma, DL Smith; citation_volume=82; citation_publication_date=2002; citation_pages=271-278; citation_doi=10.4141/S01-022; citation_id=CR33

citation_journal_title=Mycorrhiza; citation_title=Magnesium ions alleviate the negative effect of manganese on Glomus claroideum BEG23; citation_author=R Malcová, M Gryndler, M Vosátka; citation_volume=12; citation_publication_date=2002; citation_pages=125-129; citation_doi=10.1007/s00572-002-0161-1; citation_id=CR34

citation_title=Mineral nutrition in higher plants; citation_publication_date=2002; citation_id=CR35; citation_author=H Marschner; citation_publisher=Academic

citation_journal_title=New Phytol; citation_title=A new method which gives an objective measure of colonisation of roots by vesicular-arbuscular mycorrhizal fungi; citation_author=TP McGonigle, MH Miller, DG Evans, GL Fairchild, JA Swan; citation_volume=115; citation_publication_date=1990; citation_pages=495-501; citation_doi=10.1111/j.1469-8137.1990.tb00476.x; citation_id=CR36

citation_journal_title=Plant Soil; citation_title=Congeneric serpentine and nonserpentine shrubs differ more in leaf Ca:Mg than in tolerance of low N, low P, or heavy metals; citation_author=RE O'Dell, JJ James, JH Richards; citation_volume=280; citation_publication_date=2006; citation_pages=49-64; citation_doi=10.1007/s11104-005-3502-y; citation_id=CR37

citation_title=Phosphorus; citation_inbook_title=Methods of soil analysis. 2. Chemical and microbiological properties; citation_publication_date=1982; citation_pages=403-430; citation_id=CR38; citation_author=SR Olsen; citation_author=LE Sommers; citation_publisher=American Society of Agronomy

citation_journal_title=Biochem Biophys Acta; citation_title=Determination of accurate extinction coefficients and simultaneous equations for assaying chlorophylls a and b extracted with four different solvents: verification of the concentration of chlorophyll standards by atomic absorption spectroscopy; citation_author=RJ Porra, WA Thompson, PE Kriedemann; citation_volume=975; citation_publication_date=1989; citation_pages=384-394; citation_doi=10.1016/S0005-2728(89)80347-0; citation_id=CR39

citation_journal_title=J Ecol; citation_title=Plant ecology of serpentine. II. Plant response to serpentine soils; citation_author=J Proctor; citation_volume=59; citation_publication_date=1971; citation_pages=397-410; citation_doi=10.2307/2258320; citation_id=CR40

citation_journal_title=Adv Ecol Res; citation_title=The ecology of serpentine soils; citation_author=J Proctor, SRJ Woodell; citation_volume=9; citation_publication_date=1975; citation_pages=255-365; citation_doi=10.1016/S0065-2504(08)60291-3; citation_id=CR41

citation_journal_title=New Phytol; citation_title=Mycorrhizas and soil structure; citation_author=MC Rillig, DL Mummey; citation_volume=171; citation_publication_date=2006; citation_pages=41-53; citation_doi=10.1111/j.1469-8137.2006.01750.x; citation_id=CR42

citation_journal_title=New Phytol; citation_title=Functional ecology of ecotypic differentiation in the Californian serpentine sunflower (Helianthus exilis); citation_author=JBM Sambatti, KJ Rice; citation_volume=175; citation_publication_date=2007; citation_pages=107-119; citation_doi=10.1111/j.1469-8137.2007.02068.x; citation_id=CR43

citation_journal_title=Mol Ecol; citation_title=Serpentine and non-serpentine ecotypes of Collinsia sparsiflora associate with distinct arbuscular mycorrhizal fungal assemblages; citation_author=SP Schechter, TD Bruns; citation_volume=17; citation_publication_date=2008; citation_pages=3198-3210; citation_doi=10.1111/j.1365-294X.2008.03828.x; citation_id=CR44

citation_journal_title=Mycol Res; citation_title=A new fungal phylum, the Glomeromycota: phylogeny and evolution; citation_author=A Schüssler, D Schwarzott, C Walker; citation_volume=105; citation_publication_date=2001; citation_pages=1413-1421; citation_doi=10.1017/S0953756201005196; citation_id=CR45

citation_title=Mycorrhizal symbiosis; citation_publication_date=2008; citation_id=CR46; citation_author=SE Smith; citation_author=DJ Read; citation_publisher=Academic

citation_journal_title=Plant Physiol; citation_title=Mycorrhizal fungi can dominate phosphate supply to plants irrespective of growth responses; citation_author=SE Smith, FA Smith, I Jakobsen; citation_volume=133; citation_publication_date=2003; citation_pages=16-20; citation_doi=10.1104/pp.103.024380; citation_id=CR47

citation_journal_title=Plant Soil; citation_title=Plant performance in stressful environments: interpreting new and established knowledge of the roles of arbuscular mycorrhizas; citation_author=SE Smith, E Facelli, S Pope, FA Smith; citation_volume=326; citation_publication_date=2010; citation_pages=3-20; citation_doi=10.1007/s11104-009-9981-5; citation_id=CR48

citation_title=Knautia L. – chrastavec; citation_inbook_title=Květena České republiky 6 [Flora of the Czech Republic 6]; citation_publication_date=1997; citation_pages=543-554; citation_id=CR49; citation_author=J Štěpánek; citation_publisher=Academia

citation_journal_title=Am J Bot; citation_title=Ploidy-specific interactions of three host plants with arbuscular mycorrhizal fungi: Does genome copy number matter?; citation_author=R Sudová, J Rydlová, Z Münzbergová, J Suda; citation_volume=97; citation_publication_date=2010; citation_pages=1798-1807; citation_doi=10.3732/ajb.1000114; citation_id=CR50

citation_journal_title=Mycorrhiza; citation_title=Arbuscular mycorrhiza of Berkheya coddii and other Ni-hyperaccumulating members of Asteraceae from ultramafic soils in South Africa; citation_author=K Turnau, J Mesjasz-Przybylowicz; citation_volume=13; citation_publication_date=2003; citation_pages=185-190; citation_doi=10.1007/s00572-002-0213-6; citation_id=CR51

citation_journal_title=New Phytol; citation_title=Arbuscular mycorrhizal fungi respond to the substrate pH of their extraradical mycelium by altered growth and root colonization; citation_author=IM Aarle, PA Olsson, B Söderström; citation_volume=155; citation_publication_date=2002; citation_pages=173-182; citation_doi=10.1046/j.1469-8137.2002.00439.x; citation_id=CR52

citation_journal_title=Soil Biol Biochem; citation_title=Nickel-tolerant Brevibacillus brevis and arbuscular mycorrhizal fungus can reduce metal acquisition and nickel toxicity effects in plant growing in nickel supplemented soil; citation_author=A Vivas, B Biró, T Németh, JM Barea, R Azcón; citation_volume=38; citation_publication_date=2006; citation_pages=2694-2704; citation_doi=10.1016/j.soilbio.2006.04.020; citation_id=CR53

citation_journal_title=Mycorrhiza; citation_title=Phylogenetic distribution and evolution of mycorrhizas in land plants; citation_author=B Wang, YL Qiu; citation_volume=16; citation_publication_date=2006; citation_pages=299-363; citation_doi=10.1007/s00572-005-0033-6; citation_id=CR54

citation_journal_title=J Plant Physiol; citation_title=The spectral determination of chlorophylls a and chlorophyll b, as well as total carotenoids, using various solvents with spectrophotometers of different resolution; citation_author=AR Wellburn; citation_volume=144; citation_publication_date=1994; citation_pages=307-313; citation_id=CR55