Canopy behavior of three milkvetch [Astagalus] species in acclimation to a new habitat

• Autorzy: Aniszewski T.
• Języki publikacji: EN

Abstrakty

EN

Empirical data on functional growth dynamics are extremely limited for herbaceous plants and do not exist for milkvetch (Astragalus) species, although they are essential to an understanding a plant's ability to acclimate to a new habitat, which we need to know in order to predict its performance in future climate scenarios. The paper examines how species spread to a habitat in which they do not initially occur. It presents results on changes in growth, canopy behavior, competition ability and morphological traits of Cicer milkvetch (Astragalus cicer L.), Sweet milkvetch (Astragalus glycyphyllos L.) and Russian milkvetch (Astragalus falcatus Lam.) from a ten-year experiment. They successfully acclimated to a new habitat and presented clearly similar growth dynamics and similar strategies for establishing and maintaining populations. Developmental and reductional perennial phases were noted. The developmental phase showed slow and fast subphases. Canopy cover area peaked at the height of the developmental phase. Morphological parameters measured from parts of plants growing outside the experimental plot were greater than for plants growing inside it. Milkvetch species are good competitors. Unlike invasive species, their expansion strategy is not colonization-oriented. The data suggest that systematic and evolutionary studies on these species should pay attention to morphological changes.

• Wydawca: -
• Czasopismo: Acta Biologica Cracoviensia. Series Botanica
• Rocznik: 2010
• Tom: 52
• Numer: 1
• Opis fizyczny: p.45-54,fig.,ref.

Twórcy

autor

Aniszewski T.

• University of Eastern Finland, P.O.Box 111, 80101 Joensuu, Finland

Bibliografia

• ACHARYA SN, KASTELIC JP, BEAUCHEMIN KA, and MESSENGER DF. 2006. A review of research progress on cicer milkvetch(Astragalus cicer L.). Canadian Journal of PlantSciences 86: 49–62.
• ADLER PB, and HILLERISLAMBERS J. 2008. The influence of climate and species composition of the population dynamicsof ten prairie forbs. Ecology 89: 3049–3060.
• AKAN H, FIRAT M, and EKICI M. 2008. Astragalus bahcesarayensis (Leguminosae-Papilionoideae) a new speciesof section Alopecuroidei DC. from Turkey. Botanical Journal of Linnean Society 156: 439–444.
• ALLARD RW. 1988. Genetic changes associated with the evolution and adaptedness in cultivated plants and their progenies.Journal of Heredity 79: 225–238.
• ALLARD RW. 1997. Genetic basis of the evolution of adaptedness in plants. In: Tigerstedt A [ed.], Adaptation in PlantBreeding, 1–11. Kluwer, Dordrecht, Netherlands.
• ANISZEWSKI T. 1988a. Phenological study on trees, bushes and arable peat land. Agricultural Research Center,Jokioinen, Finland. Bulletin 2 : 1–125. [In Finnish]
• ANISZEWSKI T. 1988b. Environment, phenological development and dry matter formation of the blue lupin (Lupinusangustifolius L.) varieties in northern Finland. Acta Agriculturae Scandinavica 38: 3: 303–316.
• ANISZEWSKI T. 1988c. Initial development of three blue lupin (Lupinus angustifolius L.) varieties in northern Finland. Annales Agriculturae Fenniae 27: 2: 141–151.
• ANISZEWSKI T. 1995a. Editorial. Science of Legumes 2: 136.
• ANISZEWSKI T. 1995b. Interaction between legume and soil. Science of Legumes 2:172–189.
• ANISZEWSKI T. 1995c. The effects of green manure on bulk density and internal balance of garden soil: A one-yearexperiment. Science of Legumes 2: 149–162.
• ANISZEWSKI T. 2000. Phenotypic parameters of elecampane (Inula helenium) in eastern Finland. Aquilo SeriesBotanica 38: 13–28.
• ANISZEWSKI T. 2004. Legume species that have breeding potential for NE Europe. Science of Legumes 6:256–265.
• ANISZEWSKI T. 2006. Succinate dehydrogenase and acid phosphatase activity in Phaseolus lunatus testa. ActaBiologica Cracoviensia Series Botanica 48/2: 59–65.
• ANISZEWSKI T., DROZDOV SN, KHOLOPTSEVA ES, and MIHKIEV AI. 1996. Botanical characteristics and phenological developmentof Galega orientalis Lam. in the primeval forestzone of eastern Fennoscandia. Aquilo Series Botanica36: 21–26.
• ANISZEWSKI T, DROZDOV SN, KHOLOPTSEVA ES, KURETS VK, OBSHATKO AL, POPOV EG, and TALANOV AV. 1998. Effects of light and temperature on net primary productivity of fodder galega (Galega orientalis Lam.). Acta Agriculturae Scandinavica Section B: Soil Plant Science48: 1: 34–40.
• ANISZEWSKI T, DROZDOV SN, KHOLOPTSEVA ES, KURETS VK, OBSHATKO LA, POPOV EG, and TALANOV AV. 2001a. Effects of light and temperature parameters on net photosyntheticCO2 fixation by whole plants of five lupin species(Lupinus albus L., Lupinus angustifolius L., Lupinusluteus L., Lupinus mutabilis Sweet., Lupinus polyphyllusLindl.). Acta Agriculturae Scandinavica Section B:Soil Plant Science 51: 17–27.
• ANISZEWSKI T, KARTTUNEN A-L, and HYVARINEN H. 2006. Structure of Phaseolus lunatus testa in its central point. ActaBiologica Cracoviensia Series Botanica 48: 1: 69–76.
• ANISZEWSKI T, KUPARI MH, and LEINONEN AJ. 2001b. Seed number, seed size and seed diversity in Washington lupin(Lupinus polyphyllus Lindl.). Annals of Botany 87:77–81.
• ANISZEWSKI T., and SIMOJOKI P. 1984. Quantity and vigour of weed seeds in some ARC rotation experimental areas.Review and analysis of soil samples from three ARCresearch stations. Agricultural Research Centre,Jokioinen, Finland. Bulletin 22/84 : 1–38. [In Finnish]
• BHATTARAI K, JOHNSON DA, JONES TA, CONNORS KJ, and GARDNER DR. 2008. Physiological and morphological characterization of basalt milkvetch (Astragalus filipes): Basisfor plant improvement. Rangeland Ecology andManagement 61: 4: 444–455.
• DECKER K. 2005. Astragalus proximus (Rydberg) Wooton and Standley (Aztec milkvetch): A Technical Conservation Assessment. [Online], USDA Forest Service, Rocky Mountain Region, USA.
• DUDLEY JW. 2007. From means to QTL: The Illinois long-term selection experiment as a case study in quantitative Genetics. Crop Science 47 (S 3): S20–S31.
• FINNOFF D, and TSCHIRHART J. 2009. Plant competition and exclusion with optimizing individuals. Journal ofTheoretical Biology 261: 2: 227–237.
• HEYWOOD VH. 1993. Flowering Plants of the World. Oxford University Press. New York, USA.
• HEYWOOD VH, and BALL PW. 1968. Leguminosae. In: Tutin TG, Heywood, VH, Burges NA, Moore DM, Valentine DH,Walters SM, and Webb DA [eds.] Flora Europaea, vol. 2,80–191. Cambridge University Press, Cambridge,England.
• KHOLOPTSEVA ES, and MIHKIEV AI. 1995. Biological peculiarities of Leguminosae, genus Astragalus L., new to Karelia. Science of Legumes 2: 163–171.
• LAUENROTH WK, and ADLER PB. 2008. Demography of perennial grassland plants: survival, life expectancy and lifespan. Journal of Ecology 96(5): 1023–1032.
• LAURENCE R. 2006. Medicinal herbs – A preliminary evaluation of Astragalus, Bilbery, Feverfew and Stevia. RIRCD Publication No 05/185. Australian Government: RuralIndustries Research and Development Corporation,Australia.
• LOEPPKY HA, BITTMAN S, HILTZ MR, AILTZ MR, and FRICK B.1996. Seasonal changes in yield and nutritional quality of cicer milkvetch and alfalfa in northeastern Saskatchewan. Canadian Journal of Plant Science 76: 441–446.
• MOSSBERG B, and STENBERG L. 2005. Extensive Manual of the North Flora. Tammi, Helsinki, Finland. [In Finnish]
• NAGASHIMA H. 1999. The process of height-rank determination among individuals and neighbourhood effects inChenopodium album L. stands. Annals of Botany 83:501–507.
• OSMOND CB, ANANYEV G, BERRY J, FALKOWSKI P, LANGDON C, LIN G, MONSON R, NICHOL CJ, RASHIER U, SMITH S, and YAKIR D. 2004. Changing the way we think about global changeresearch: scaling up in experimental ecosystem science.Global Change Biology 10: 393–407.
• PHILLIPPE N, CROZAT R, LENSKI RE, and SCHNEIDER D. 2007.Evolution of global regulatory networks during a long-term experiment with Escherichia coli. BioEssays29: 846–860.
• RIAHI M, and ZARRE S. 2009. Seed development in Astragalus cemerinus and A. ruscifolius (Fabaceae), and its systematicimplications. Acta Biologica Cracoviensia SeriesBotanica 51/1: 111–117.
• RITTENHOUSE B, and ROSENTRETER R. 1994. The autecology of Challis milkvetch, an endemic of east central Idaho.Nature Areas Journal 14: 1: 22–30.
• ROBERTS E, SUMMERFIELD R, ELLIS R, and QI A. 1993. Adaptation of flowering in crops to climate. Outlook onAgriculture 22: 105–110.
• ROZEN DE, and LENSKI RE. 2000. Long-term experimental evolution in Escherichia coli. VIII. Dynamics of balancedpolymorphism. American Naturalist 155: 24–35.
• SAHBAZ R., LIEBEREI R., and ANISZEWSKI T. 2009. Polyphenol oxidase (PPO, catecholase) activity during germinationand early seedling growth of Cicer milkvetch (Astragaluscicer L.). Journal of Applied Botany and Food Quality82: 2: 163–169.
• SCHURR U, WALTER A, and RASCHER U. 2006. Functional dynamics of plant growth and photosynthesis – from steady-state to dynamics – from homogeneity to heterogeneity. Plant Cell and Environment 29: 340–352.
• TOBE K, and GAO Y. 2007. Seed germination and seedling emergence of herbs in sand. Australian Journal ofBotany 55: 55–62.
• TOWNSEND CE. 1993. Breeding, physiology, culture, and utilization of Cicer Milkvetch (Astragalus cicer L.).Advances in Agronomy 49: 253–308.
• VAINIONPÄÄ T. 2008. Giant hogweed (Heracleum mantegazzianum Sommier and Levier) as an alien species. MSc. Thesis. 50pp. Faculty of Biosciences, University of Joensuu, Joensuu, Finland.
• WRIGHT JT, BYERS JE, KOUKOUMAFTSIS LP, RALPH PJ, and GRIBBEN PE. 2010. Native species behavior mitigates the impact of habitat-forming invasive seaweed. Oecologia163: 527–534.
• ZOMLEFER W. 1994. Guide to Flowering Plant Families. University of North Carolina Press, Chapel Hill, North Carolina, USA.