Nitrogen deposition influences the allelopathic effect of an invasive plant on the reproduction of a native plant: Solidago canadensis versus Pterocypsela laciniata

• Autorzy: Wang C. , Liu J. , Xiao H. , Zhou J. , Du D.
• Języki publikacji: EN

Abstrakty

EN

This study aims to gain insights into the allelopathic effects (by using leaf extracts) of the notorious invasive Solidago canadensis L. on seed germination of the associated Pterocypsela laciniata (Houtt.) C. Shih under different nitrogen (N) forms added: inorganic (NO3--N and NH4 -N), organic (urea-N), and mixed N (a mixture of the three N forms at 1:1:1 ratio). Among the two used concentrations of S. canadensis leaf extracts the higher exhibited inhibitory allelopathic effects on seedling height and biomass, germination potential, germination index, and vigor index of P. laciniata. N demonstrated positive effects on seed germination of P. laciniata. The effects of mixed and organic N on the seedling biomass of P. laciniata were more pronounced than those of inorganic N and control treatment. The vigor index of P. laciniata under mixed N was significantly higher than those under single N form and control treatment. Thus, organic and mixed N showed higher ecological effects on seed germination of P. laciniata than inorganic and single N form. All N forms could alleviate the inhibitory allelopathic effects of S. canadensis on seed germination of P. laciniata. Overall, the inhibitory allelopathic impact of S. canadensis on seed germination of native species may be attenuated under increased and diverse N deposition, thus it could prevent its further invasion.

Słowa kluczowe

EN

allelopathic effect; invasive plant; native species; Solidago canadensis; seed germination; Pterocypsela laciniata; nitrogen deposition

• Wydawca: -
• Czasopismo: Polish Journal of Ecology
• Rocznik: 2017
• Tom: 65
• Numer: 1
• Opis fizyczny: p.87-96,ref.

Twórcy

autor

Wang C.

• Institute of Environment and Ecology, Academy of Environmental Health and Ecological Security and School of the Environment and Safety Engineering, Jiangsu University, Zhenjiang 212013, P. R. China

autor

Liu J.

• Institute of Environment and Ecology, Academy of Environmental Health and Ecological Security and School of the Environment and Safety Engineering, Jiangsu University, Zhenjiang 212013, P. R. China

autor

Xiao H.

• Institute of Environment and Ecology, Academy of Environmental Health and Ecological Security and School of the Environment and Safety Engineering, Jiangsu University, Zhenjiang 212013, P. R. China

autor

Zhou J.

• Institute of Environment and Ecology, Academy of Environmental Health and Ecological Security and School of the Environment and Safety Engineering, Jiangsu University, Zhenjiang 212013, P. R. China

autor

Du D.

• Institute of Environment and Ecology, Academy of Environmental Health and Ecological Security and School of the Environment and Safety Engineering, Jiangsu University, Zhenjiang 212013, P. R. China
• Key Laboratory of Modern Agricultural Equipment and Technology, Ministry of Education and Jiangsu Province, Jiangsu University, Zhenjiang 212013, P. R. China

Bibliografia

• Abhilasha D., Quintana N., Vivanco J., Joshi J. 2008 — Do allelopathic compounds in invasive Solidago canadensis s.l. restrain the native European flora? F J. Ecol. 96: 993–1001.
• Boudsocq S., Niboyet A., Lata J.C., Raynaud X., Loeuille N., Mathieu J., Blouin M., Abbadie L., Barot S. 2012 — Plant preference for ammonium versus nitrate: a neglected determinant of ecosystem functioning? — Am. Nat. 180: 60–69.
• Callaway R.M., Ridenour W.M. 2004 — Novel weapons: invasive success and the evolution of increased competitive ability — Front. Ecol. Environ. 2: 436–443.
• Carreiro M.M., Sinsabaugh R.L., Repert D.A., Parkhurst D.F. 2000 — Microbial enzyme shifts explain litter decay responses to simulated nitrogen deposition — Ecology, 81: 2359–2365.
• Chu C.J., Mortimer P.E., Wang H.C., Wang Y.F., Liu X.B., Yu S.X. 2014 — Allelopathic effects of Eucalyptus on native and introduced tree species — Forest Ecol. Manag. 323: 79–84.
• Cornell S.E., Jickells T.D., Cape J.N., Rowland A.P., Duce R.A. 2003 — Organic nitrogen deposition on land and coastal environments: a review of methods and data — Atmos. Environ. 37: 2173–2191.
• Currey P.M., Johnson D., Sheppard L.J., Leith I.D., Toberman H., van der Wal R., Dawson L.A., Artz R.R.E. 2010 — Turnover of labile and recalcitrant soil carbon differ in response to nitrate and ammonium deposition in an ombrotrophic peatland — Glob. Change Biol. 16: 2307–2321.
• Dentener F., Drevet J., Lamarque J.F., Bey I., Eickhout B., Fiore A.M., Hauglustaine D. et al. 2006 — Nitrogen and sulfur deposition on regional and global scales: A multimodel evaluation. — Global Biogeochem. Cy. 20: GB4003.
• Dezfuli P.M., Sharif-zadeh F., Janmohammadi M. 2008 — Influence of priming techniques on seed germination behavior of maize inbred lines (Zea mays L.) — ARPN J. Agr. Biol. Sci. 3: 22–25.
• Dong M., Lu B.R., Zhang H.B., Chen J.K., Li B. 2006 — Role of sexual reproduction in the spread of an invasive clonal plant Solidago canadensis revealed using intersimple sequence repeat markers — Plant Spec. Biol. 21: 13–18.
• Du Y.H., Guo P., Liu J.Q., Wang C.Y., Yang N., Jiao Z.X. 2014 — Different types of nitrogen deposition show variable effects on the soil carbon cycle process of temperate forests — Glob. Change Biol. 20: 3222–3228.
• Fabbro C.D., Güsewell S., Prati D. 2014 — Allelopathic effects of three plant invaders on germination of native species: a field study — Biol. Invasions, 16: 1035–1042.
• Fenesi A., Geréd J., Meiners S.J., Tóthmérész B., Török P., Ruprecht E. 2015 — Does disturbance enhance the competitive effect of the invasive Solidago canadensis on the performance of two native grasses? — Biol. Invasions, 17: 3303–3315.
• Galloway J.N., Dentener F.J., Capone D.G., Boyer E.W., Howarth R.W., Seitzinger S.P., Asner G.P., Cleveland C.C., Green P.A., Holland E.A., Karl D.M., Michaels A.F., Porter J.H., Townsend A.R., Vorosmarty C.J. 2004 — Nitrogen cycles: past, present, and future — Biogeochemistry, 70: 153–226.
• Galloway J.N., Townsend A.R., Erisman J.W., Bekunda M., Cai Z., Freney J.R., Martinelli L.A., Seitzinger S.P., Sutton M.A. 2008 — Transformation of the nitrogen cycle: Recent trends, questions, and potential solutions — Science, 320: 889–892.
• Giagnoni L., Pastorelli R., Mocali S., Arenella M., Nannipieri P., Renella G. 2016 — Availability of different nitrogen forms changes the microbial communities and enzyme activities in the rhizosphere of maize lines with different nitrogen use efficiency — Appl. Soil Ecol. 98: 30–38.
• González M., Gomez E., Comese R., Quesada M., Conti M. 2010 — Influence of organic amendments on soil quality potential indicators in an urban horticultural system — Bioresource Technol. 101: 8897–8901.
• Guo P., Wang C.Y., Feng X.G., Su M.F., Zhu W.Q., Tian X.J. 2011a — Mixed inorganic and organic nitrogen addition enhanced extracellular enzymatic activities in a subtropical forest soil in east China — Water Air Soil Poll. 216: 229–237.
• Guo P., Wang C.Y., Jia Y., Wang Q., Han G.M., Tian X.J. 2011b — Responses of soil microbial biomass and enzymatic activities to fertilizations of mixed inorganic and organic nitrogen at a subtropical forest in East China — Plant Soil, 33: 355–366.
• He W.M., Montesinos D., Thelen G.C., Callaway R.M. 2012 — Growth and competitive effects of Centaurea stoebe populations in response to simulated nitrogen deposition. — PLoS ONE, 7: e36257.
• Hou Q.Q., Chen B.M., Peng S.L., Chen L.Y. 2014 — Effects of extreme temperature on seedling establishment of nonnative invasive plants — Biol. Invasions, 16: 2049–2061.
• Hu Y.L., Zeng D.H., Liu Y.X., Zhang Y.L., Chen Z.H., Wang Z.Q. 2010 — Responses of soil chemical and biological properties to nitrogen addition in a Dahurian larch plantation in Northeast China — Plant Soil, 333: 81–92.
• Huntly N., Bangert R., Hanser S.E. 2011 — Native and exotic plants of fragments of sagebrush steppe produced by geomorphic processes versus land use — Plant Soil, 212: 1549–1561.
• Jones D.L., Shannon D., Murphy D.V., Farrar J. 2004 — Role of dissolved organic nitrogen (DON) in soil N cycling in grassland soils — Soil Biol. Biochem. 36: 749–756.
• Jones R.O., Chapman S.K. 2011 — The roles of biotic resistance and nitrogen deposition in regulating non-native understory plant diversity — Plant Soil, 345: 257–269.
• Kahmen A., Wanek W., Buchmann N. 2008 — Foliar δ¹⁵N values characterize soil N cycling and reflect nitrate or ammonium preference of plants along a temperate grassland gradient — Oecologia, 156: 861–870.
• Knorr M., Frey S.D., Curtis P.S. 2005 — Nitrogen additions and litter decomposition: a meta-analysis — Ecology, 86: 3252–3257.
• Konstantinović B., Blagojević M., Konstantinović B., Samardžić N. 2014 — Allelopathic effect of weed species Amaranthus retroflexus L. on maize seed germination — Rom. Agric. Res. 31: 315–321.
• Leduc S.D., Rothstein D.E. 2010 — Plant-available organic and mineral nitrogen shift in dominance with forest stand age — Ecology, 91: 708–720.
• Li Z., Wang X., Liao T.Q., Feng Q.C., D. Zhang D.Z. 2016 — A self-developed system for visual detection of vegetable seed vigor index. — Int. J. Agric. Biol. 18: 86–91.
• Liu X.J., Zhang Y., Han W.X., Tang A.H., Shen J.L., Cui Z.L., Vitousek P., Erisman J.W., Goulding K., Christie P., Fangmeier A., Zhang F.S. 2013 — Enhanced nitrogen deposition over China — Nature, 494: 459–462.
• Mérigout P., Gaudon V., Quilleré I., Briand X., Daniel-Vedele F. 2008 — Urea use efficiency of hydroponically grown maize and wheat — J. Plant Nutr. 31: 427–443.
• Nasholm T, Kielland K., Ganeteg U. 2009 — Up take of organic nitrogen by plants — New Phytol. 182: 31–48.
• Neff J.C., Holland E.A., Dentener F.J., McDowell W.H., Russell K.M. 2002 — The origin, composition and rates of organic nitrogen deposition: A missing piece of the nitrogen cycle? — Biogeochemistry, 57: 99–136.
• Pyšek P., Jarošík V., Hulme P.E., Pergl J., Hejda M., Schaffner U., Vilà M. 2012 — A global assessment of invasive plant impacts on resident species, communities and ecosystems: the interaction of impact measures, invading species' traits and environment — Glob. Change Biol. 18: 1725–1737.
• Qiu X.M., Zhang R.Z. 2008 — Influences of simulated acid rain on seed germination and seedling physiological characteristics in different colored cotton varieties — Cotton Sci. 20: 23–28 (in Chinese).
• Reynolds H.L., Hartley A.E., Vogelsang K.M., Bever J.D., Schultz P.A. 2005 — Arbuscular mycorrhizal fungi do not enhance nitrogen acquisition and growth of old-field perennials under low nitrogen supply in glasshouse culture — New Phytol. 167: 869–880.
• Schmer M.R., Xue Q., Hendrickson J.R. 2012 — Salinity effects on perennial, warm-season (C4) grass germination adapted to the northern Great Plains — Can. J. Plant Sci. 92: 873–881.
• Shen L.H., Guo Q.X., Xiong J., Li G.Q., Lin W.X. 2008 — Solidago canadensis L. allelopathy and resource competitiveness under different nitrogen supply — Chin. J. Eco.-Agr. 16: 900–904 (in Chinese).
• Svensson J.R., Nylund G.M., Cervin G., Toth G.B., Pavia H. 2013 — Novel chemical weapon of an exotic macroalga inhibits recruitment of native competitors in the invaded range — J. Ecol. 101: 140–148.
• Talhelm A.F., Burton A.J., Pregitzer K.S., Campione M.A. 2013 — Chronic nitrogen deposition reduces the abundance of dominant forest understory and groundcover species — Forest Ecol. Manag. 293: 39–48.
• Turk M.A., Tawaha A.M. 2003 — Allelopathic effect of black mustard (Brassica nigra L.) on germination and growth of wild oat (Avena fatua L.) — Crop Prot. 22: 673–677.
• 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 — Ecol. Res. 26: 505–513.
• Wang C.Y., Lv Y.N., Liu X.Y., Wang L. 2013 — Ecological effects of atmospheric nitrogen deposition on soil enzyme activity — J. For. Res. 24: 109–114.
• Wang C.Y., Xiao H.G., Zhao L.L., Liu J., Wang L., Zhang F., Shi Y.C., Du D.L. 2016 — The allelopathic effects of invasive plant Solidago canadensis on seed germination and growth of Lactuca sativa enhanced by different types of acid deposition — Ecotoxicology, 25: 555–562.
• Wang C.Y., Zhou J.W., Liu J., Du D.L. 2017 — Responses of soil N-fixing bacteria communities to invasive species over a gradient of simulated nitrogen deposition. Ecol. Eng. 98: 32–39.
• Wang Q.K., Wang S.L., Liu Y. 2008 — Responses to N and P fertilization in a young Eucalyptus dunniiplantation: Microbial properties, enzyme activities and dissolved organic matter — Appl. Soil Ecol. 40: 484–490.
• Wang T.J., Jiang F., Li S., Liu Q. 2007 — Trends in air pollution during 1996–2003 and cross-border transport in city clusters over the Yangtze River Delta region of China — Terr. Atmos. Ocean. Sci. 18: 995–1009.
• Weigelt A., Bol R., Bardgett R.D. 2005 — Preferential uptake of soil nitrogen forms by grassland plant species — Oecologia, 142: 627–635.
• Wu F.Z., Bao W.K., Li L.F., Wu N. 2008b — Effects of water stress and nitrogen deposition on leaf gas exchange and fluorescence parameters of Sophora davidii seedlings — Photosynthetica, 46: 40–48.
• Wu T.Y., Ma B.L., Liang B.C. 2008a — Quantification of seasonal soil nitrogen mineralization for corn production in eastern Canada — Nutr. Cycl. Agroecosys. 81: 279–290.
• Yang R., Yu G., Tang J., Chen X. 2008 — Effects of metal lead on growth and mycorrhizae of an invasive plant species (Solidago canadensis L.) — J. Environ. Sci. 20: 739–744.
• Yin C.Y., Berninger F., Li C.Y. 2006 — Photosynthetic responses of Populus przewalski subjected to drought stress — Photosynthetica, 44: 62–68.
• Yuan Y.G., Wang B., Zhang S.S., Tang J.J., Tu C., Hu S.J., Yong J.W.H., Chen X. 2013 — Enhanced allelopathy and competitive ability of invasive plant Solidago canadensis in its introduced range — J. Plant Ecol. 6: 253–263.
• Zhang L., Zhang Y.J., Zou J.W., Siemann E. 2014 — Decomposition of Phragmites australis litter retarded by invasive Solidago canadensis in mixtures: an antagonistic non-additive effect — Sci. Rep. 4: 5488.
• Zhang N.L., Wan S.Q., Li L.H., Bi J., Zhao M.M., Ma K.P. 2008 — Impacts of urea N addition on soil microbial community in a semi-arid temperate steppe in northern China — Plant Soil, 311: 19–28.
• Zhang Q., Yao L.J., Yang R.Y., Tang J.J., Chen X. 2007 — Potential allelopathic effects of an invasive species Solidago canadensis in the mycorrhizae of native plant species — Allelopathy J. 20: 71–78.
• Zhang S.S., Zhu W.J., Wang B., Tang J.J., Chen X. 2011 — Secondary metabolites from the invasive Solidago canadensis L. accumulation in soil and contribution to inhibition of soil pathogen Pythium ultimum — Appl. Soil Ecol. 48: 280–286.
• Zhang Y., Song L., Liu X.J., Li W.Q., Lü S.H., Zheng L.X., Bai Z.C., Cai G.Y., Zhang F.S. 2012 — Atmospheric organic nitrogen deposition in China — Atmos. Environ. 46: 195–204.
• Zhao S.Y., Sun S.G., Dai C., Gituru R.W., Chen J.M., Wang Q.F. 2015 — Genetic variation and structure in native and invasive Solidago canadensis populations — Weed Res. 55: 163–172.

Identyfikatory

DOI

10.3161/15052249PJE2017.65.1.008