Role and influence of soil microbial communities on plant invasion

• Autorzy: Ravichandran K.R. , Thangavelu M.
• Języki publikacji: EN

Abstrakty

EN

It is known that plant invasions are of major concern as they result in loss of biodiversity and alterations in ecosystem processes and functions. Although numerous mechanisms have been postulated to find out the reasons behind plant invasiveness, the actual and precise mechanism is still obscure. Soil microbes are considered as one of the important determinants of plant growth and establishment. Plant invasion leads to changes in the composition and structure of soil microorganisms. Most of the earlier studies have focused on the aboveground mechanisms of plant invasion. Recently the belowground mechanisms for plant invasion are being investigated. In this review, we focus on the various hypotheses related to soil microbes in either enhancing or suppressing plant invasions. The interactions between soil microbes with native and non-native plant species, the role of the plant-soil feedback system in the invasion and its impact, the function of mycorrhizal and bacterial symbiosis in plant species invasion and the role of soil biota and changes brought about in soil nutrient cycling and soil enzymes due to plant invasion are also discussed.

• Wydawca: -
• Czasopismo: Ecological Questions
• Rocznik: 2017
• Tom: 27
• Opis fizyczny: p.9-23,ref.

Twórcy

autor

Ravichandran K.R.

• Root and Soil Biology Laboratory, Department of Botany, Bharathiar University, Coimbatore, Tamilnadu, India

autor

Thangavelu M.

• Root and Soil Biology Laboratory, Department of Botany, Bharathiar University, Coimbatore, Tamilnadu, India

Bibliografia

• Agrawal A.A., Kotanen P.M., Mitchell C.E., Power A. G., Godsoe W. & Klironomos J., 2005, Enemy release? An experiment with congeneric plant pairs and diverse above and belowground enemies, Ecology 86: 2979– 2989.
• Allen E.B. & Allen M.F., 1984, Competition between plants of different successional stages: mycorrhizae as regulators, Canadian Journal of Botany 62: 2625–2629.
• Allen M.F., 1991, The ecology of mycorrhizae, Cambridge University Press, Cambridge, UK.
• Allison S.D., Nielsen C. & Hughes R.F., 2006, Elevated enzyme activities under the invasive nitrogen fixing tree Falcataria moluccana, Soil Biology and Biochemistry 38: 1537–1544.
• Allison S.D. & Vitousek P.M., 2004, Rapid nutrient cycling in leaf litter from invasive species in Hawai’i, Oecologia 141: 612– 619.
• Andonian K., Hierro J.L., Khetsuriani L., Becerra P., Janoyan G., Villarreal D., Cavieres L., Fox L.R. & Callaway R.M., 2011, Range expanding populations of a globally introduced weed experience negative plant-soil feedbacks, PLoS ONE 6: e20117.
• Aon M.A.& Colaneri A.C., 2001, Temporal and spatial evolution of enzymatic activities and physico-chemical properties in an agricultural soil, Applied Soil Ecology 18: 255–270.
• Aragón R., Sardans J. & Pefiuelas J., 2014, Soil enzymes associated with carbon and nitrogen cycles in invaded and native secondary forests of northwestern Argentina, Plant and Soil 384: 169–183.
• Barto E.K., Powell J.R. & Cipollini D., 2010, How novel are the chemical weapons of garlic mustard in North American forest understories?, Biological Invasions 12: 3465–3471.
• Batten K.M., Scow K.M., Davies K.F. & Harrison S.P., 2006, Two invasive plants alter soil microbial community composition in serpentine grasslands, Biological Invasions 8: 217–230.
• Batten K.M., Scow K.M., Espeland E.K, 2008, Soil microbial community associated with an invasive grass differentially impacts native plant performance, Microbial Ecology 55: 220–228.
• Beckstead J. & Parker I.M., 2003, Invasiveness of Ammophila arenaria: Release from soil-borne pathogens?, Ecology 84: 2824-2831.
• Bever J.D., 2003, Soil community feedback and the coexistence of competitors: conceptual frameworks and empirical tests, New Phytologist 157: 465–473.
• Bever J.D., Westover K. M. & Antonovics J., 1997, Incorporating the soil community into plant population dynamics: the utility of the feedback approach, Journal of Ecology 85: 561–573.
• Blossey B. & Notzold R., 1995, Evolution of increased competitive ability in invasive nonindigenous plants: a hypothesis, Journal of Ecology 83: 887–889.
• Blumenthal D.M., 2009, Carbon addition interacts with water availability to reduce invasive forb establishment in a semi-arid grassland, Biological Invasions 11: 1281–1290.
• Boudiaf I., Le Roux C., Baudoin E., Galiana A., Beddiar A., Prin Y. & Duponnois R., 2014, Soil Bradyrhizobium population response to invasion of a natural Quercus suber forest by the introduced nitrogen-fixing tree Acacia mearnsii in El Kala National Park, Algeria, Soil Biology and Biochemistry 70: 162–165.
• Broz A.K., Manter D.K. & Vivanco J.M., 2007, Soil fungal abundance and diversity: another victim of the invasive plant Centaurea maculosa, International Society for Microbial Ecology 8: 763–765.
• Bunn R.A., Ramsey P.W. & Lekberg Y., 2015, Do native and invasive plants differ in their interactions with arbuscular mycorrhizal fungi? A meta-analysis, Journal of Ecology 103: 1547–1556.
• Burns R.G., DeForest J., Marxsen J., Sinsabaugh R., Stromberger M.E., Wallenstein M., Weintraub M.N. & Zoppini A., 2013, Soil enzymes in a changing environment: Current knowledge and future directions, Soil Biology and Biochemistry 58: 216–234.
• Callaway R.M., Bedmar E.J., Reinhart K.O., Silvan C.G. & Klironomos J., 2011, Effects of soil biota from different ranges on Robinia invasion: acquiring mutualists and escaping pathogens, Ecology 92: 1027–1035.
• Callaway R.M., Cipollini D., Barto K., Thelen G.C., Hallet S.G., Prati D., Stinson K. & Klironomos J., 2008, Novel weapons: invasive plant suppresses fungal mutualists in America but not in its native Europe, Ecology 89: 1043–1055.
• Callaway R.M. & Ridenour W.M., 2004, Novel weapons: invasive success and the evolution of increased competitive ability, Frontiers in Ecology and the Environment 2: 436–443.
• Callaway R.M., Thelen G.C., Rodriguez A. & Holber W. E., 2004, Soil biota and exotic plants invasion, Nature 427: 731–733.
• Castelli J.P. & Casper B.B., 2003, Intraspecific AM fungal variation contributes to plant-fungal feedback in serpentine grassland, Ecology 84: 323–336.
• Chacón N., Herrera I., Flores S., Gonzalez J.A. & Nassar J.M., 2009, Chemical, physical, and biochemical soil properties and plant roots as affected by native and exotic plants in Neotropical arid zones, Biology and Fertility of Soils 45: 321-328.
• Chapuis-Lardy L., Vanderhoeven S., Dassonville N., Koutika L.S. & Meerts P., 2006, Effect of the exotic invasive plant Solidago gigantea on soil phosphorus status, Biology and Fertility of Soils 42: 481-489.
• Chen W.M., de Faria S.M., Straliotto R., Pitard R.M., Simões-Araùjo J.L., Chou J.H., Chou Y.J., Barrios E., Prescott A.R., Elliott G.N., Sprent J.I., Young P.W. & James E.K., 2005a, Proof that Burkholderia forms effective symbioses with legumes: a study of novel Mimosa-nodulating strains from South America, Applied and Environmental Microbiology 71: 7461–7471.
• Chen W.M., James E.K., Chou J.H., Sheu S. Y., Yang S. Z. & Sprent J. I., 2005b, Beta-rhizobia from Mimosa pigra a newly discovered invasive plant in Taiwan, New Phytologist 168: 661–675.
• Chen W.M., Moulin L., Bontemps C., Vandamme P., Bena G. & Boivin-Masson C., 2003, Legume symbiotic nitrogen fixation by β-Proteobacteria is widespread in nature, Journal of Bacteriology 185: 7266–7272.
• Chen W.M., Laevens S., Lee T.M., Coenye T., de Vos P., Mergeay M. & Vandamme P., 2001. Ralstonia taiwanensis sp. nov., isolated from root nodules of Mimosa species and sputum of a cystic fibrosis patient. International Journal of Systematic and Evolutionary Microbiology 51: 1729–1735.
• Clawson M.L., Benson D.R., Resch S.C., Stephens D.W. & Silvester W.B., 1997, Typical Frankia infect actinorhizal plants exotic to New Zealand, New Zealand Journal of Botany 35: 361–367.
• Coats V.C. & Rumpho M.E., 2014, The rhizosphere microbiota of plant invaders: an overview of recent advances in the microbiomics of invasive plants, Frontiers in Microbiology 5: 368.
• Colautti R.I. & MacIsaac H.J., 2004, A neutral terminology to define invasive species, Diversity and Distributions 10: 135–141.
• Cui Q.G. & He W.M., 2009, Soil biota, but not soil nutrients, facilitate the invasion of Bidens pilosa relative to a native species Saussurea deltoidea, Weed Research 49: 201–206.
• Dai Z.C., Fu W., Qi S.S., Zhai D.L., Chen S.C., Wan L.Y., Huang P. & Du D.L., 2016, Different responses of an invasive clonal plant Wedelia trilobata and its native congener to gibberellin: implications for biological invasion, Journal of Chemical Ecology 42: 85–94.
• Davis M.A., Grime J.P. & Thompson K., 2000, Fluctuating resources in plant communities: a general theory of invisibility, Journal of Ecology 88: 528–534.
• Diez J., 2005, Invasion biology of Australian ectomycorrhizal fungi introduced with eucalypt plantations into the Iberian Peninsula, Biological Invasions 7: 3–15.
• Dugar G., Gopinath B., Arun B. & Sharma S., 2013, Plant growth promoting abilities of phosphate solubilizers from the rhizosphere of Parthenium hysterophorus, African Journal of Microbiology Research 7: 147–151. Ehrenfeld J.G., 2003 Effects of exotic plant invasions on soil nutrient cycling processes, Ecosystems 6: 503–523.
• Eppinga M.B., Rietkerk M., Dekker S.C., De Ruiter P.C. & van der Putten W.H., 2006, Accumulation of local pathogens: a new hypothesis to explain exotic plant invasions, Oikos 114: 168–176.
• Fan L., Chen Y., Yuan J.G. & Yang Z.Y., 2010, The effect of Lantana camara Linn. invasion on soil chemical and microbiological properties and plant biomass accumulation in Southern China, Geoderma 154: 370–378.
• Flory S.L. & Clay K., 2010, Non-native grass invasion alters native plant composition in experimental communities, Biological Invasions 12: 1285–1294.
• Fumanal B., Plenchette C., Chauvel B. & Bretagnolle F., 2006, Which role can arbuscular mycorrhizal fungi play in the facilitation of Ambrosia artemisiifolia L. invasion in France?, Mycorrhiza 17: 25-35.
• Garbelotto M., Huberli D. & Shaw D., 2006, First report on an infestation of Phytophthora cinnamomi in natural oak woodlands of California and its differential impact on two native oak species, Plant Disease 90: 685.
• Goodwin J., 1992, The role of mycorrhizal fungi in competitive interactions among native bunchgrasses and alien weeds: a review and synthesis, Northwest Science 66: 251–260.
• Hawkes C.V., Wren I.F., Herman D.J. & Firestone M.K., 2005, Plant invasion alters nitrogen cycling by modifying the soil nitrifying community, Ecology Letters 8: 976–985.
• Herr C., Chapuis-Lardy L., Dassonville N., Vanderhoeven S. & Meerts P., 2007, Seasonal effect of exotic invasive plant Solidago gigantea on soil pH and P fractions, Journal of Plant Nutrition and Soil Science 170: 729–738.
• Inderjit. & Cahill J.F., 2015, Linkages of plant-soil feedbacks and underlying invasion mechanisms, AoB PLANTS 7: plv022.
• Inderjit. & van der Putten W.H., 2010, Impacts of soil microbial communities on exotic plant invasions, Trends in Ecology and Evolution 25: 512–519.
• Jeyalakshmi C., Doraisamy S. & Valluvaparidasan V., 2011, Occurrence of soil microbes under Parthenium weed in Tamil Nadu, Indian Journal of Weed Science 43: 222–223.
• Johnson N.C., Graham J.H. & Smith F.A., 1997, Functioning of mycorrhizal associations along the mutualizmparasitism continuum, New Phytologist 135: 575–585.
• Kardol P., Bezemer T.M. & van der Putten W.H., 2006, Temporal variation in plant-soil feedback controls succession, Ecology Letters 9: 1080–1088.
• Kardol P., Cornips N.J., van Kempen M.M.L., Bakx-Schotman J.M.T. & van der Putten W.H., 2007, Microbemediated plant-soil feedback causes historical contingency effects in plant community assembly, Ecological Monographs 77: 147–162.
• Keane R.M. & Crawley M.J., 2002, Exotic plant invasions and the enemy release hypothesis, Trends in Ecology and Evolution 17: 164–170.
• Klironomos J.N., 2002, Feedback with soil biota contributes to plant rarity and invasiveness in communities, Nature 417: 67–70.
• Kolar C.S. & Lodge D.M., 2001, Progress in invasion biology: predicting invaders, Trends in Ecology and Evolution 16: 199–205.
• Kourtev P.S., Ehrenfeld J.G. & Haggblom M., 2002, Exotic plant species alter the microbial community structure and function in the soil, Ecology 83: 3152–3166.
• Kourtev P.S., Ehrenfeld J.G. & Haggblom M., 2003, Experimental analysis of the effect of exotic and native plant species on the structure and function of soil microbial communities, Soil Biology and Biochemistry 35: 895–905.
• Kuebbing S.E., Classen A.T. & Simberloff D., 2014, Two cooccurring invasive woody shrubs alter soil properties and promote subdominant invasive species, Journal of Applied Ecology 51: 124–133.
• Kuebbing S.E. & Nufiez M.A., 2015, Negative neutral and positive interactions among nonnative plants: patterns, processes and management implications, Global Change Biology 21: 926–934.
• Kulmatiski A., Beard K.H., Stevens J.R. & Cobbold S.M., 2008, Plantsoil feedbacks: a meta-analytical review, Ecology Letters 11: 980–992.
• Kulmatiski A. & Kardol P., 2008, Getting plant-soil feedbacks out of the greenhouse: experimental and conceptual approaches, [in:] Progress in Botany, U. Lüttge, W. Beyschlag & J. Murata (eds), Springer-Verlag, Berlin Heidelberg: 449–472.
• Larimer A.L., Bever J.D. & Clay K., 2010, The interactive effects of plant microbial symbionts: a review and meta-analysis, Symbiosis 51: 139–148.
• Le Roux J.J., Mavengere N.R. & Ellis A.G., 2016, The structure of legume–rhizobium interaction networks and their response to tree invasions, AoB PLANTS 8: plw038
• Levine J.M., Adler P.B. & Yelenik S.G., 2004, A metaanalysis of biotic resistance to exotic plant invasions, Ecology Letters 7: 975–989.
• Levine J.M., Vila M., D'Antonio C.M., Dukes J.S., Grigulis K. & Lavorel S., 2003, Mechanisms underlying the impacts of exotic plant invasions, Proceedings of the Royal Society of London B, 270: 775–781.
• Li D., Huang Y., Song S., Xue C., Wu Y. & Deng X., 2015, Kibdelosporangium lantanae sp. nov., isolated from the rhizosphere soil of an ornamental plant, Lantana camara L., International Journal of Systematic and Evolutionary Microbiology 65: 2581–2585.
• Li H., Shao J.J., Qiu S.Y. & Li B., 2013 Native Phragmites dieback reduced its dominance in the salt marshes invaded by exotic Spartina in the Yangtze River estuary, China, Ecological Engineering 57: 236–241.
• Li W.H., Zhang C.B., Jiang H.B., Xin G.R. & Yang Z.Y., 2006, Changes in soil microbial community associated with invasion of the exotic weed, Mikania micrantha H.B.K, Plant and Soil 281: 309-324.
• Liao C., Peng R., Luo Y., Zhou X., Wu X., Fang C., Chen J. & Li B., 2007, Altered ecosystem carbon and nitrogen cycles by plant invasion: a meta-analysis, New Phytologist 177: 706–714.
• Liu H. & Stiling P., 2006, Testing the enemy release hypothesis: a review and meta-analysis, Biological Invasions 8: 1535–1545.
• Lorenzo P., Rodriguez-Echeverri S., LuisGonzalez L. & Freitas H., 2010, Effect of invasive Acacia dealbata Link on soil microorganisms as determined by PCR-DGGE, Applied Soil Ecology 44: 245–251.
• Mack R.N., 2001, Motivations and consequences of the human dispersal of plants, [in:] The Great Reshuffling: Human Dimensions of Invasive Alien Species, J.A. McNeely (eds.), International Union for Conservation of Nature, Gland, Switzerland: 23–34.
• Majewska M.L., Rola K. & Zubek S., 2017, The growth and phosphorus acquisition of invasive plants Rudbeckia laciniata and Solidago gigantea are enhanced by arbuscular mycorrhizal fungi, Mycorrhiza 27: 83–94.
• Mangan S.A., Schnitzer S.A., Herre E.A., Mack K.M.L., Valencia M.C., Sanchez E.I. & Bever J.D., 2010, Negative plant-soil feedback predicts tree-species relative abundance in a tropical forest, Nature 466: 752–755.
• Mangla S., Inderjit. & Callaway R.M., 2008, Exotic invasive plant accumulates native soil pathogens which inhibit native plants, Journal of Ecology 96: 58–67.
• Marchante E., Kj0ller A., Struwe S. & Freitas H., 2008, Invasive Acacia longifolia induce changes in the microbial catabolic diversity of sand dunes, Soil Biology and Biochemistry 40: 2563–2568.
• Marler M.J., Zabinski C.A. & Callaway R.M., 1999, Mycorrhizae indirectly enhance competitive effects of an invasive forb on a native bunchgrass, Ecology 80: 1180–1186.
• Maron J.L. & Connors P.G., 1996, A native nitrogen-fixing shrub facilitates weed invasion, Oecologia 105: 302– 312.
• Maron J., Klironomos J., Waller L.P. & Callaway R.M., 2014, Invasive plants escape from suppressive soil biota at regional scales, Journal of Ecology 102: 19–27. Medina-Villar S., Castro-Diez P., Alonso A., Cabra-Rivas I., Parker I.M. & Perez-Corona E., 2015, Do the invasive trees, Ailanthus altissima and Robinia pseudacacia, alter litterfall dynamics and soil properties of riparian ecosystems in Central Spain?, Plant and Soil 396: 311–324.
• Meinhardt K.A. & Gehring C.A., 2012, Disrupting mycorrhizal mutualisms: a potential mechanism by which exotic tamarisk outcompetes native cottonwoods, Ecological Applications 22: 532–549.
• Mitchell C.E., Agrawal A.A., Bever J.D., Gilbert G.S., Hufbauer R.A., Klironomos J.N., Maron J.L., Morris W.F., Parker I.M., Power A.G., Seabloom E.W., Torchin M.E. & Vazquez D.P., 2006, Biotic interactions and plant invasions, Ecology Letters 9: 726–740.
• Mitchell C.E. & Power A.G., 2003, Release of invasive plants from fungal and viral pathogens, Nature 421: 625–27.
• Mooney H.A. & Cleland E.E., 2001, The evolutionary impact of invasive species, Proceedings of the National Society of Sciences of the United States of America 98: 5446–5451.
• Moore P.D., 2004, Plant ecology: favoured aliens for the future, Nature 427: 594–594.
• Mummey D.L. & Rillig M.C., 2006, The invasive plant species Centaurea maculosa alters arbuscular mycorrhizal fungal communities in the field, Plant and Soil 288: 81–90.
• Neuhauser C. & Fargione G.E., 2004, A mutualism-parasitism continuum model and its application to plantmycorrhizae interactions, Ecological Modelling 177: 335–352.
• Newcombe G., Shipunov A., Eigenbrode S., Raghavendra A.K.H., Ding H., Anderson C.L., Menjivar R., Crawford M. & Schwarzlander M., 2009, Endophytes influence protection and growth of an invasive plant, Communicative and Integrative Biology 2: 29–31.
• Niu H.B., Liu W.X., Wan F.H. & Liu B., 2007a, An invasive aster (Ageratina adenophora) invades and dominates forest understories in China: altered soil microbial communities facilitate the invader and inhibit natives, Plant and Soil 294: 73–85.
• Niu H.B., Liu W.X., Wan F.H. & Liu B., 2007b, Screening, identification and antagonism assessment of dominant bacteria in Ageratina adenophora Sprengel rhizosphere soil, Journal of Applied Ecology 18: 2795–2800.
• Novoa A., Rodriguez R., Richardson D. & Gonzalez L., 2014, Soil quality: a key factor in understanding plant invasion? The case of Carpobrotus edulis (L.) N.E. Br., Biological Invasions 16: 429–443.
• Ogle S., Reiners W. & Gerow K., 2003, Impacts of exotic annual Brome grasses (Bromus spp.) on ecosystem properties of Northern mixed grass prairie, The American Midland Naturalist 149: 46–58.
• Packer A. & Clay K., 2000, Soil pathogens and spatial patterns of seedling mortality in a temperate tree, Nature 404: 278–281.
• Panetta F.D. & Scanlan J.C., 1995, Human involvement in the spread of noxious weeds: what plants should be declared and when should control be enforced?, Plant Protection Quarterly 10: 69–74.
• Parker M. A, Lafay B., Burdon J.J. & van Berkum P., 2002, Conflicting phylogeographic patterns in rRNA and nifD indicate regionally restricted gene transfer in Bradyrhizobium, Microbiology 148: 2557–2565.
• Parker M.A., Malek W. & Parker I.M., 2006, Growth of an invasive legume is symbiont limited in newly occupied habitats, Diversity and Distribution 12: 563–571.
• Pattison R.R., Goldstein G. & Ares A., 1998, Growth, biomass allocation and photosynthesis of invasive and native Hawaiian rainforest species, Oecologia 117: 449– 459.
• Pringle A., Bever J.D, Gardes M., Parrent J.L., Rillig M.C. & Klironomos J.N., 2009, Mycorrhizal symbioses and plant invasions, Annual Review of Ecology, Evolution and Systematics 40: 699–715.
• Reinhart K.O. & Callaway R.M., 2004, Soil biota facilitate exotic Acer invasions in Europe and North America, Ecological Applications 14: 1737–1745.
• Reinhart K.O. & Callaway R.M., 2006, Soil biota and invasive plants, New Phytologist 170: 445–457.
• Reinhart K.O., Packer A., van der Putten W.H. & Clay K., 2003, Plant–soil biota interactions and spatial distribution of black cherry in its native and invasive ranges, Ecology Letters 6: 1046–1050.
• Reinhart K.O., Tytgat T., van der Putten W.H. & Clay K., 2010, Virulence of soil-borne pathogens and invasion by Prunus serotina, New Phytologist 186: 484 –495.
• Richardson D.M., Allsopp N., D’Antonio C.M., Milton S.J. & Rejmanek M., 2000, Plant invasions the role of mutualisms, Biological Reviews 75: 65–93.
• Richardson D.M., Williams P.A. & Hobbs R.J., 1994, Pine invasions in the southern hemispheredeterminants of spread and invadability, Journal of Biogeography 21: 511–527.
• Roberts K.J & Anderson R.C., 2001, Effect of garlic mustard [Alliaria petiolata (Beib. Cavara & Grande)] extracts on plants and arbuscular mycorrhizal (AM) fungi, The American Midland Naturalist 146: 146–152.
• Rout M.E., & Callaway R.M., 2012, Interactions between exotic invasive plants and soil microbes in the rhizosphere suggest that ‘everything is not everywhere, Annals of Botany 110: 213–222.
• Rout M.E. & Chrzanowski T.H., 2009, The invasive Sorghum halepense harbors endophytic N -fixing bacteria and alters soil biogeochemistry, Plant and Soil 315: 163–172.
• Rout M.E., & Chrzanowski T.H., Westlie T.K., DeLuca T.H., Callaway R.M. & Holben W.E., 2013, Bacterial endophytes enhance competition by invasive plants, American Journal of Botany 100: 1726–1737.
• Ruckli R., Rusterholz H.P. & Baur B., 2014, Invasion of an annual exotic plant into deciduous forests suppresses arbuscular mycorrhiza symbiosis and reduces perfor-mance of sycamore maple saplings, Forest Ecology and Management 318: 285–293.
• Sanon A., Beguiristain T., Cebron A., Berthelin J., Ndoye I., Leyval C., Sylla S. & Duponnois R., 2009, Changes in soil diversity and global activities following invasions of the exotic invasive plant, Amaranthus viridis L., decrease the growth of native sahelian Acacia species, FEMS Microbiology Ecology 70: 118-131.
• Sanon A., Beguiristain T., Cebron A., Berthelin J. & Sylla S.N. & Duponnois R., 2011, Differences in nutrient availability and mycorrhizal infectivity in soils invaded by an exotic plant negatively influence the development of indigenous Acacia species, Journal of Environmental Management 95: 275–279.
• Sardans J., Peñuelas J. & Estiarte M., 2008, Changes in soil enzymes related to C and N cycle and in soil C and N content under prolonged warming and drought in a Mediterranean shrubland, Applied Soil Ecology 39: 223–235.
• Scharfy D., Gusewell S., Gessner M.O. & Venterink H.O., 2010, Invasion of Solidago gigantea in contrasting experimental plant communities: effects on soil microbes, nutrients and plant-soil feedbacks, Journal of Ecology 98: 1379–1388.
• Seifert E.K., Bever J.D. & Maron J.L., 2009, Evidence for the evolution of reduced mycorrhizal dependence during plant invasion, Ecology 90: 1055–1062.
• Shah M.A. & Reshi Z., 2007 Invasion by alien Anthemis cotula L. in a biodiversity hotspot: release from native foes or relief from alien friends, Current Science 92: 21–22.
• Shah M.A., Reshi Z. & Rashid I., 2008, Mycorrhizal source and neighbour identity differently influence Anthemis cotula L. invasion in the Kashmir Himalaya, India, Applied Soil Ecology 40: 330–337.
• Shannon S.M., Bauer J.T., Anderson W.E. & Reynolds H.L., 2014, Plant-soil feedbacks between invasive shrubs and native forest understory species lead to shifts in the abundance of mycorrhizal fungi, Plant and Soil 382: 317–328.
• Sharma G.P. & Raghubanshi A.S., 2009, Lantana invasion alters soil nitrogen pools and processes in the tropical dry deciduous forest of India, Applied Soil Ecology 42: 134–140.
• Shipunov A., Newcombe G., Raghavendra A.K. & Anderson C. L., 2008, Hidden diversity of endophytic fungi in an invasive plant, American Journal of Botany 95: 1096–1108.
• Si C., Liu X., Wang C., Wang L., Dai Z., Qi S. & Du D., 2013, Different degrees of plant invasion significantly affect the richness of the soil fungal community, PLoS ONE 8: e85490.
• Smith S.E. & Read D.J., 2008, Mycorrhizal Symbiosis, 3 edn., Academic Press, London, UK.
• Smithwick E.A.H., Naithani K.J., Balser T.C, Romme W.H. & Turner M.G., 2012, Post-fire spatial patterns of soil nitrogen mineralization and microbial abundance, PLoS ONE 7 (11): e50597.
• Stinson K.A., Campbell S.A., Powell J.R., Wolfe B.E., Callaway R.M., Thelen G.C., Hallett S.G., Prati D. & Klironomos J.N., 2006, Invasive plant suppresses the growth of native tree seedlings by disrupting belowground mutualisms, PLoS Biology 12: e1001817.
• Stott D.E., Andrews S.S., Liebig M.A., Wienhold B.J. & Karlen D.L., 2010, Evaluation of β-glucosidase activity as a soil quality indicator for the soil management assessment framework, Soil Biology and Biochemistry 74: 107–119.
• Suding K.N., Harpole W.S., Fukami T., Kulmatiski A., MacDougall A.S., Stein C. & van der Putten W.H., 2013, Consequences of plant-soil feedbacks in invasion, Journal of Ecology 101: 298–308.
• Sun Z.K. & He W.M., 2010, Evidence for enhanced mutualism hypothesis: Solidago canadensis plants from regular soils perform better, PLoS ONE 5: e15418.
• Te Beest M., Stevens N., Olff H. & van der Putten W.H., 2009, Plant–soil feedback induces shifts in biomass allocation in the invasive plant Chromolaena odorata, Journal of Ecology 97: 1281–1290.
• Tererai F., Gaertner M., Jacobs S.M. & Richardson D.M., 2015, Eucalyptus camaldulensis invasion in riparian zones reveals few significant effects on soil physicochemical properties, River Research and Applications 31: 590–601.
• Utobo E.B. & Tewari L., 2015, Soil enzymes as bioindicators of soil ecosystem status, Applied Ecology and Environmental Research 13: 147–169.
• van der Putten W.H., 2001, Interactions of plants, soil pathogens and their antagonists in natural ecosystems, [in:] Biotic interactions in plant–pathogen associations, M.J. Jeger, N.J. Spence (eds), CAB International, New York, NY, USA: 285–305.
• van der Putten W.H., Bardgett R.D., Bever J.D., Bezemer T.M., Casper B.B., Fukami T., Kardol P., Klironomos J.N., Kulmatiski A., Schweitzer J.A., Suding K.N., Van de Voorde T.F.J. & Wardle D.A., 2013, Plant -soil feedbacks: the past, the present and future challenges, Journal of Ecology 101: 265 –276.
• van der Putten W.H., Kowalchuk G.A., Brinkman E.P., Doodeman G.T.A., van der Kaaij R.M., Kamp A.F., Menting F.B. & Veenendaal E.M., 2007, Soil feedback of exotic savanna grass relates to the absence of pathogens and selective mycorrhizal fungi, Ecology 88: 978–988. van der Putten W.H., van Dijk C. & Peters B., 1993, Plantspecific soilborne diseases contribute to succession in foredune vegetation, Nature 362: 53–56.
• van der Putten W.H., Yeates G.W., Duyts H., Reis C.S. & Karssen G., 2005, Invasive plants and their escape from root herbivory: a worldwide comparison of the root-feeding nematode communities of the dune grass Ammophila arenaria in natural and introduced ranges, Biological Invasions 7: 733–746.
• van Kleunen M., Dawson W., Essl F., Pergl J., Winter M., Weber E., Kreft H., Weigelt P., Kartesz J., Nishino M., Antonova L.A., Barcelona J.F., Cabezas F.J., Cardenas D., Cardenas-Toro J., Castano N., Chacón E., Chatelain C., Ebel A.L., Figueiredo E., Fuentes N., Groom Q.J., Henderson L., Inderjit., Kupriyanow A., Patzelt A., Pelser P. B., Baptiste M.P., Poopath M., Schulze M., Seevbens H., Shu W.S., Thomas J., Velayos M., Wieringa J.J. & Pyšek P., 2015, Global exchange and accumulation of non-native plants, Nature 525: 100–103.
• Vellinga E.C., Wolfe B.E. & Pringle A., 2009, Global patterns of ectomycorrhizal introductions, New Phytologist 181: 960–973.
• Vila M., Corbin J.D., Dukes J.S., Pino J. & Smith S.D., 2007, Linking plant invasions to global environmental change, [in:] Terrestrial ecosystems in a changing world – The IGBP Series, J.G. Canadell, D.E. Pataki, L.F. Pitelka (eds), Springer New York, NY, USA: 93-102.
• Vila M., Maron J.L. & Marco L., 2005, Evidence for the enemy release hypothesis in Hypericum perforatum, Oecologia 142: 474–479.
• Vila M. & Weiner J., 2004, Are invasive plant species better competitors than native plant species? Evidence from pairwise experiments, Oikos 105: 229–238.
• Vitousek P.M., Walker L.R., Whiteaker L.D., Mueller-Dombois D. & Matson P.A., 1987, Biological invasion by Myrica faya alters ecosystem development in Hawaii, Science 238: 802–804.
• Vogelsang K.M., Bever J.D., Griswold M. & Schultz P.A., 2004, The Use of Mycorrhizal Fungi in Erosion Control Applications, California Department of Transportation, Sacramento, CA.
• Wang C.Y., Han G.M., Jia Y., Feng X.G., Guo P. & Tian X.J., 2011, Response of litter decomposition and related soil enzyme activities to different forms of nitrogen fertilization in a subtropical forest, Ecological Research 26: 505–513.
• Wei G., Chen W., Zhu W., Chen C., Young J.P. & Bontemps C., 2009, Invasive Robinia pseudoacacia in China is nodulated by Mesorhizobium and Sinorhizobium species that share similar nodulation genes with native American symbionts, FEMS Microbiology Ecology 68: 320–328.
• Weidenhamer J.D. & Callaway R.M., 2010, Direct and indirect effects of invasive plants on soil chemistry and ecosystem function, Journal of Chemical Ecology 36: 59–69.
• Werner C., Zumkier U., Beyschlag W. & Maguas C., 2010, High competitiveness of a resource demanding invasive acacia under low resource supply, Plant Ecology 206: 83–96.
• Wolfe B.E. & Klironomos J.N., 2005, Breaking new ground: soil communities and exotic plant invasion, BioScience 55: 477–487.
• Wolfe B.E., Rodgers V.L., Stinson K.A. & Pringle A., 2008, The invasive plant Alliaria petiolata (garlic mustard) inhibits ectomycorrhizal fungi in its introduced range, Journal of Ecology 96: 777–783.
• Xiao H.F., Feng Y.L., Schaefer D.A. & Yang X.D., 2014, Soil fungi rather than bacteria were modified by invasive plants, and that benefited invasive plant growth, Plant and Soil 378: 253–264.
• Yang Q., Carrillo J., Jin H., Shang L., Hovick S. M., Nijjer S., Gabler C.A, Li B. & Siemann E., 2013, Plant-soil biota interactions of an invasive species in its native and introduced ranges: implications for invasion success, Soil Biology and Biochemistry 65: 78–85.
• Yang R., Zhou G., Zan S., Guo F., Su N. & Li J., 2014, Arbuscular mycorrhizal fungi facilitate the invasion of Solidago canadensis L. in southeastern China, Acta Oecologica 61: 71–77.
• Yelenik S.G., Stock W.D. & Richardson D.M., 2004, Ecosystem Level Impacts of Invasive Acacia saligna in the South African Fynbos, Restoration Ecology 12: 44-51.
• Zabinski C.A., Quinn L. & Callaway R.M., 2002, Phosphorus uptake, not carbon transfer, explains arbuscular mycorrhizal enhancement of Centaurea maculosa in the presence of native grassland species, Fuctional Ecology 16: 758–765.
• Zhang F., Guo J., Chen F., Liu W. & Wan F., 2012, Identification of volatile compounds released by leaves of the invasive plant Crofton weed (Ageratina adenophora, Compositae), and their inhibition of rice seedling growth, Weed Science 60: 205–211.
• Zhang Q., Yang R., Tang J., Yang H., Hu S. & Chen X., 2010, Positive feedback between mycorrhizal fungi and plants influences plant invasion success and resistance to invasion, PLoS ONE 5, e12380.
• Zhou P.F., Chen W.M. & Wei G.H., 2010, Mesorhizobium robiniae sp. nov., isolated from root nodules of Robinia pseudoacacia, International Journal of Systematic and Evolutionary Microbiology 60: 2552–2556.
• Zou J., Rogers W.E. & Siemann E., 2008, Increased competitive ability and herbivory tolerance of the invasive plant Sapium sebiferum, Biological Invasions 10: 291– 302.
• Zubek S., Majewska M.L., Błaszkowski J., Stefanowicz A.M., Nobis M. & Kapusta P., 2016, Invasive plants affect arbuscular mycorrhizal fungi abundance and species richness as well as the performance of native plants grown in invaded soils, Biology and Fertility of Soils 52: 879–893.

Identyfikatory

DOI

10.12775/EQ.2017.024