Superior performance of invasive grasses over native counterparts will remain problematic under warmer and drier conditions (original) (raw)
References
Allen MF (2011) Linking water and nutrients through the vadose zone: a fungal interface between the soil and plant systems. J Arid Environ 3:155–163 Google Scholar
Antoninka A, Wolf JE, Bowker M, Classen AT, Johnson NC (2009) Linking above- and belowground responses to global change at community and ecosystem scales. Glob Change Biol 15:914–929 Article Google Scholar
Augé RM (2001) Water relations, drought and vesicular-arbuscular mycorrhizal symbiosis. Mycorrhiza 11:3–42 Article Google Scholar
Bhandari KB, West CP, Longing SD, Brown CP, Green PE, Barkowsky E (2018) Pollinator abundance in semi-arid pastures as affected by forage species. Crop Sci 58:2665–2671 Article Google Scholar
Bradley BA, Wilcove DS, Oppenheimer M (2010) Climate change increases risk of plant invasions in the eastern United States. Biol Invasions 12:1855–1872 Article Google Scholar
D’Antonio CM, Vitousek PM (1992) Biological invasions by exotic grasses, the grass/fire cycle, and global change. Ann Rev Ecol Syst 23:63–87 Article Google Scholar
Dick JTA, Laverty C, Lennon JJ, Barrios-ONeill D, Mensink PJ, Britton JR, Médok V, Boets P, Alexander ME, Taylor NG, Dunn AM, Hatcher MJ, Rosewarne PJ, Crookes S, MacIsaac HJ, Xu M, Ricciardi A, Wasserman RJ, Ellender BR, Weyl OLF, Lucy FE, Banks PB, Dodd JA, Macneil C, Penk MR, Aldridge DC, Caffrey JM (2017) Invader relative impact potential: a new metric to understand and predict the ecological impacts of existing, emerging and future invasive alien species. J Appl Ecol 54:1259–1267 Article Google Scholar
Diez JM, D’Antonio CM, Dukes JS, Grosholz ED, Olden JD, Sorte CJB, Blumenthal DM, Bradley BA, Early R, Ibáńéz I, Jones SJ, Lawler JL, Miller JP (2012) Will extreme climatic events facilitate biological invasions? Front Ecol Environ 10:249–257 Article Google Scholar
Dillemuth FP, Rietschier EA, Cronin JT (2008) Patch dynamics of a native grass in smooth brome (Bromusinermis). Biol Invasions 11:1381–1391 Article Google Scholar
Doll JE, Haubensak KA, Bouressa EL, Jackson RD (2011) Testing disturbance, seeding time, and soil amendments for establishing native warm-season grasses in non-native cool-season pasture. Restor Ecol 19:1–8 Article Google Scholar
Dong X, Patton J, Wang G, Nyren P, Peterson P (2012) Effect of drought on biomass allocation in two invasive abd two native grass species dominating the mixed-grass prairie. Grass Forage Sci 69:160–166 Article Google Scholar
Duell EB, Wilson GWT, Hickman KR (2016) Above- and below-ground responses of native and invasive prairie grasses to future climate scenarios. Botany 94:471–479 Article Google Scholar
Duell EB, Bever JD, Zaiger K, Wilson GWT (2019) Climate affects plant-soil feedback of native and invasive grasses: Negative feedbacks in stable but not in variable environments. Front Ecol Evol 7:49–58 Article Google Scholar
Funk JL, Standish RJ, Stock WD, Valladares F (2016) Plant functional traits of dominant native and invasive species in Mediterranean-climate ecosystems. Ecology 97:75–83 ArticlePubMed Google Scholar
Gabbard BL, Fowler NL (2006) Wide ecological amplitude of a diversity-reducing invasive grass. Biol Invasions 9:149–160 Article Google Scholar
Garbowski M, Brown CS, Johnston DB (2020) Soil amnendment interacts with invasive grass and drought to uniquely influence aboveground versus belowground biomass in aridland restoration. Restor Ecol 28:A13–A23 Article Google Scholar
Gibson DJ (2009) Grasses and grassland ecology. Oxford University Press, Oxford, New York, USA Google Scholar
Grimm NB, Chapin FS, Bierwagen B, Gonzalez P, Groffman PM, Luo P, Melton F, Nadelhoffer K, Pairis A, Raymond PA, Schimel J, Williamson CE (2013) The impacts of climate change on ecosystem structure and function. Front Ecol Environ 11:474–482 Article Google Scholar
Grove S, Haubensak KA, Gehring C, Parker IM (2017) Mycorrhizae, invasions, and the temporal dynamics of mutualism disruption. J Ecology 105:1496–1508 Article Google Scholar
Groves AM, Bauer JT, Brudvig LA (2020) Lasting signature of planting year weather on restored grasslands. Sci Rep-UK 10:1–10 CAS Google Scholar
Harmoney KR, Hickman KR (2004) Comparative morphology of Caucasian old world bluestem and native grasses. Agron J 96:1540–1544 Article Google Scholar
Hartnett DC, Wilson GWT (2002) The role of mycorrhizas in plant community structure and dynamics: lessons from grasslands. Plant Soil 244:319–331 ArticleCAS Google Scholar
Hickman KR, Farley GH, Channell R, Steier JE (2006) Effects of old world bluestem (Bothriochloa ischaemum) on food availability and avian community composition within the mixed-grass prairie. Southwest Nat 51:524–530 Article Google Scholar
IPCC (Intergovernmental Panel on Climate Change) (2014) Climate Change 2014. In: Pachauri RK, Meyer LA (eds) Climate change 2014: synthesis report. contribution of working groups I, II and II to the fifth assessment report of the intergovernmental panel on climate change. IPCC, Geneva, Switzerland Google Scholar
James JJ, Svejcar TJ, Rinella MJ (2011) Demographic processes limiting seedling recruitment in arid grassland restoration. J Appl Ecol 48:961–969 Article Google Scholar
Johnson NC, Angelard C, Sanders IR, Kiers ET (2013) Predicting community and ecosystem outcomes of mycorrhizal responses to global change. Ecol Lett 16:140–153 ArticlePubMed Google Scholar
Jonas JL, Buhl DA, Symstad AJ (2015) Impacts of weather on long-term patterns of plant richness and diversity vary with location and management. Ecology 96:2417–2432 ArticlePubMed Google Scholar
Kiss R, Deák B, Török P, Tóthmérész B, Valkó O (2018) Grassland seed bank and community resilience in a changing climate. Restor Ecol 26:S141–S150 Article Google Scholar
Larson DL, Anderson PJ, Newton W (2001) Alien plant invasion in mixed-grass prairie: effects of vegetation type and anthropogenic disturbance. Ecol Appl 11:128–141 Article Google Scholar
Li J, Meng B, Chai H, Yang X, Song W, Li S, Lu A, Zhang T, Sun W (2019) Arbuscular mycorrhizal fungi alleviate drought stress in C3 (Leymus chinensis) and C4 (Hemarthria altissima) grasses via altering antioxidant enzyme activities and photosynthesis. Front Plant Sci 10:499 ArticlePubMedPubMed Central Google Scholar
Liu Y, van Kleunen M (2017) Responses of common and rare aliens and natives to nutrient availability and fluctuations. J Ecol 105:1111–1122 ArticleCAS Google Scholar
Liu Y, Oduor AMO, Zhang Z, Manea A, Tooth IM, Leishman MR, Xu X, Van Kleunen M (2017) Do invasive plants benefit more from global environmental change than native plants? Glob Change Biol 23:3363–3370 Article Google Scholar
Maron JL, Marler M (2008) Field-based competitive impacts between invaders and natives at varying resource supply. J Ecol 96:1187–1197 Article Google Scholar
McGonigle TO, Miller MH, Evans DG, Fairchild GL, Swan JA (1990) A new method which gives an objective measure of colonization of roots by vesicular-arbuscular mycorrhizal fungi. New Phytol 115:495–501 ArticleCASPubMed Google Scholar
Miller RM, Jastrow JD (2000) Mycorrhizal fungi influence soil structure. In: Kapulnik Y, Douds DD (eds) Arbuscular Mycorrhizae: Physiology and Function. Springer, Dordrecht, NL, pp 3–18 Chapter Google Scholar
Moora M, Öpik M, Davison J, Jairus T, Vasar M, Zobel M, Eckstein RL (2016) AM fungal communities inhabiting the roots of submerged aquatic plant Lobelia dortmanna are diverse and include a high proportion of novel taxa. Mycorrhiza 26:735–745 ArticleCASPubMed Google Scholar
Moore NA, Camac JS, Morgan JW (2019) Effects of drought and fire on resprouting capacity of 52 temperate Australian perennial native grasses. New Phytol 221:1424–1433 ArticlePubMed Google Scholar
Ocheltree TW, Mueller KM, Chesus K, LeCain DR, Kray JA, Blumenthal DM (2020) Identification of suites of traits that explains drought resistance and phenological patterns of plants in a semi-arid grassland community. Oecologia 192:55–66 ArticleCASPubMed Google Scholar
Otfinowski R, Kenkel NC (2008) Clonal integration facilitates the proliferation of smooth brome clones invading northern fescue prairies. Plant Ecol 199:235–242 Article Google Scholar
Otfinowski R, Kenkel NC, Catling PM (2007) The biology of Canadian weeds. 134. Bromus inermis Leyss. Can J Plant Sci 87:183–198 Article Google Scholar
Paolucci A, Rauschert ESJ, Carrino-Kyker S, Burke D (2020) Root fungal communities associated with better performance of an invasive spring ephemeral. Biol Invasions 23(1):181–192 Article Google Scholar
Pintó-Marijuan M, Munné-Bosh S (2013) Ecophysiology of invasive plants: osmotic adjustment and antioxidants. Trends Plant Sci 18:660–666 ArticlePubMedCAS Google Scholar
Qiu J, Yuguang B, Coulman B, Romo JT (2008) Mechanisms regulating seedling emergence of orchardgrass (Dactylis glomerata L.) and western wheatgrass (Pascopyrum smithii [Rydb.] L.]): Dormancy change, seed fate and seeding date. Environ Exp Bot 62:185–194 Article Google Scholar
Ricciardi A, Hoopes MF, Marchetti MP, Lockwood JL (2013) Progress toward understanding the ecological impacts of nonnative species. Ecol Monogr 83:263–282 Article Google Scholar
Richards LA, Weaver LR (1943) Fifteen-atmosphere percentage as related to the permanent wilting percentage. Soil Sci 56:331–339 ArticleCAS Google Scholar
Robins JG, Bhattarai K, Bushman BS, Larson SR (2012) Relationships among seed quality characteristics in a collection of western wheatgrass germplasm. Euphytica 184:131–139 Article Google Scholar
Rummukainen M (2013) Climate change: changing means and changing extremes. Clim Change 121:3–13 Article Google Scholar
Scasta JD, Engle DM, Fuhlendorf SD, Redfearn DD, Bidwell TG (2015) Meta-analysis of exotic forages as invasive plants in complex multi-functioning landscapes. Invasive Plant Sci Manag 8:292–306 Article Google Scholar
Sexton JP, McKay JK, Sala A (2002) Plasticity and genetic diversity may allow saltcedar to invade cold climates in North America. Ecol Appl 12:1652–1660 Article Google Scholar
Song F, Kong S, Dong A, Liu X (2012) Impact of arbuscular mycorrhizal fungi on the growth and related physiological indexes of Amorpha fruticosa. J Med Plants Res 6:3648–3655 CAS Google Scholar
van der Putten WH, Bardgett RD, Bever JD, Bezemer TM, Casper BB, Fukami T, Kardol P, Klironomos JN, Kulmatiski A, Schweitzer JA, Suding KN, Van de Voorde TFJ, Wardle DA (2013) Plant-soil feedbacks: the past, the present and future challenges. J Ecol 101:265–276 Article Google Scholar
Verlinden M, Nijs I (2010) Alien plant species favoured over congeneric natives under experimental climate warming in temperate Belgian climate. Biol Invasions 12:2777–2787 Article Google Scholar
Volaire F (2018) A unified framework of plant adaptive strategies to drought: crossing scales and disciplines. Glob Change Biol 24:2929–2938 Article Google Scholar
Wainwright CE, Cleland EE (2013) Exotic species display greater germination plasticity and higher germination rates than native species across multiple cues. Biol Invasions 15:2253–2264 Article Google Scholar
Walck JL, Hidayati SN, Dixon KW, Thompson K, Poschold K (2011) Climate change and plant regeneration from seed. Glob Chang Biol 17:2145–2161 Article Google Scholar
Wang YJ, Müller-Schärer H, van Kleunen M, Cai AM, Zhang P, Yan R, Dong BC, Yu FH (2017a) Invasive alien plants benefit more from clonal integration in heterogeneous environments than natives. New Phytol 216:1072–1078 ArticlePubMed Google Scholar
Wang G, Wang D, Trenberth KE, Erfanian A, Yu M, Bosilovich MG, Parr DT (2017b) The peak structure and future changes of the relationships between extreme precipitation and temperature. Nat Clim Chang 7:268–274 Article Google Scholar
Wilson GWT, Hartnett DC (1998) Interspecific variation in plant responses to mycorrhizal colonization in tallgrass prairie. Am J Bot 85:1732–1738 ArticleCASPubMed Google Scholar
Wilson GWT, Rice CW, Rillig MC, Springer A, Hartnett DC (2009) Soil aggregation and carbon sequestration are tightly correlated with abundance of arbuscular mycorrhizal fungi: results from long-term field experiments. Ecol Lett 12:452–461 ArticlePubMed Google Scholar
Wilson GWT, Hickman KR, Williamson MM (2012) Invasive warm-season grasses reduce mycorrhizal root colonization and biomass production of native prairie grasses. Mycorrhiza 22:327–336 ArticlePubMed Google Scholar
Wolkovich EM, Cleland EE (2011) The phenology of plant invasions: a community ecology perspective. Front Ecol Environ 9:287–294 Article Google Scholar
Xiao HF, Feng YL, Schaefer DA, Yang XD (2014) Soil fungi rather than bacteria were modified by invasive plants, and that benefited invasive plant growth. Plant Soil 378:253–264 ArticleCAS Google Scholar
Yuan X, Wen B (2018) Seed germination response to high temperature and water stress in three invasive Asteraceae weeds from Xishuangbanna SW China. PLoS ONE 13:0191710 Article Google Scholar
Zhang P, Li B, Wu J, Hu S (2019) Invasive plants differentially affect soil biota through litter and rhizosphere pathways: a meta-analysis. Ecol Lett 22:200–210 ArticlePubMed Google Scholar
Zhou J, Zhang Y, Wilson GWT, Cobb AB, Lu W, Guo Y (2017) Small vegetation gaps increase reseeded yellow-flowered alfalfa performance and production in native grasslands. Basic Appl Ecol 24:41–52 Article Google Scholar