Great Basin Natunilist52(2). 1992.pp. 189-193 VEGETATION ASSOCIATED WITH TWO ALIEN PLANT SPECIES IN A FESCUE GRASSLAND IN GLACIER NATIONAL PARK, MONTANA R()l)inW.Tyser Ki'i/icord.s:aliniflora. CJacicrF<nk. FesiwcAgrasslands. The presence of alien flora in natunil area 1974, Anderson—et al. 1982, Brotherson and grasslands ofthe Great Basin and surrounding Rushforth 1983) hasnotyetbeenconsidered, areasisofconsiderableconcern,giventhewide- nor has the impact ofC. maculosa been com- spread success of alien flora and associated pared to that ofother alien species. P. pratense declineofnati\especiesinthisregion(Younget iswidelvdistributedthroughut theparksgrass- al. 1972, Mack 1986, 1989). Suiveys ofindige- lands. Unlike C. maculosa, this species appears nous bunchgrass communities in northern to have been intentionally seededin grasslands Roclcs Mountain national parks have detected by outfitters before the 1940s and along road- the occurrence of several alien plant species sides by park personnel before the 198()s (D. (Koterba and Ilabeck 1971, Stringer 1973, Lange and Potter, personal comnumication). J. Weaver and Woods 1985, 1986, Tvser and Worley 1992). In addition, alien species have Study Site and Methods commonK'been usedto revegetate human-dis- turbedsitessuch as roadsidesandhousingareas The ca 10-hastud\-area, located adjacentto in national parks. Livestock-related introduc- Going-to-the-Sun Highway in the St. Mary tion of Eurasian pasture grasses byprivate out- drainage ofGlacier National Park, Montana, is titters is also known to have occurred (Glacier fairlytopographicallyhomogeneous,i.e.,clearK' National ParkRecords 1939). Ho\ve\er, in spite defined drainage channels are absent, and ofthese observations and practices, the effects slope, exposure, and substrate texture are rela- ofalien vegetation in natural areagrasslands of tively uniform. The study area includes a large this region remain poorlystudied. (ca5ha),irregularlyshapedstanddominatedbv Thisstudycomparestheindigenous\ascular PJileum pratense and a small (ca 0.1 ha) stand flora and crvptoganiic ground cover associated adjacent to the roadside ditch dominated b\ with two cdien species, Centoiirea ituicidosa Centaurea maculosa. The Centaurea stand Lam. (spottedknapweed) andPhleiimpratense extends >20 m away from the ditch and is not L. (common timothv), that ha\'e in\'aded a part of the road-cut corridor. The remaining fescuegrasslandinGlacierNationalPark, Mon- portion of the studv site is composedof a stand tana. C. nmcitlosa, now a noxious rangeland ofnatixeFestuca grassesandassociated\egeta- imader throughout the Pacific Northwest tionin which inxasion byalien specieshas been (Watson and Renney 1974, Lacey 1989), was minimal. Though no homesteadingis known to first detected in the park in the mid-1960s (R. ha\eoccurredinthe.studvareabeforeestablish- Wassem, personal communication). Earlier ment of the park in 1910, this area was likel\ obserxations have shown that this species is used as summer pasture for concession trail expandingintograsslands adjacent to roadsides horses from approximately 1915 to 1940 (B. intheparkandreducingspeciesrichness(Tyser Fladmark,personalcommunication).Thestudy and Key 1988). The impact ofC—. nuiculoso on area has not been used for stock grazing since the cr\ptogamic ground crust of potential thattime. Othenvise, thereis noindication that importancein soil stabilization, moisture reten- anyoftheareassampledinthethreestandshave tion,andnitrogen fixation (Rvchertand Skujins been subjected to anthropogenic disturbance DepartmentofBiolog\andMicTol)iolog\,I'niversitvofWisconsin-LaOosse,LaCrosse.Wisconsin546()L 189 190 GreatBasin Naturalist [Volume52 since the park was established. In addition, no Carex spp., Festuca idahoensis, F. scabrella, fires have been recorded in or near the study Gaillardiaaristata, andLupinussericeus (Table areasince 1910.Acnptoganigroundlayercom- 1). Speciescompositionofthisstandwassimilar posed of small lichens and mosses covering to prairie communities described elsewhere in undisturbed soil surfaces is commonlypresent. the Pacific Northwest, e.g., the Festuca Qualitativeobservationsuggeststhatmossesare scabrella/F. idahoensis association of western thedominantelementinthislayer. Meanannual Montana (Mueggler and Stewart 1980), the precipitation in the study area is ca 65 cm Festuca/Danthonia prairie ofAlberta (Stringer (Finklin 1986). 1973), and the Washington Palouse prairie Ineachstand,vegetationwassampledusing (Daubenmire1970). Estimatedsurfacecoverof 20 X 50-cm quadrat frames alongtwotransects the cryjDtogam layer in this standwas relatively placed in representative areas. Within each high, characteristicofwestern bunchgrass prai- quadrat, presence of all vascular species was ries (Daubenmire 1970, Mack and Thompson determined, and the canopy coverofeach vas- 1982).Threealienspeciesweresampledwithin cularspecies andthe surface coverofthe cry|3- the Festuca stand, though total cover ofthese togamic ground crust were estimated to the specieswas <1.0%. nearest percentage. A stratified random sam- Significant among-stand variation occurred pling procedure was used in which quadrats for all community measures (Table 2). Each of were randomlyplaced along transect segments these measures was lowest in the Centaurea offixed length. For the Centaurea stand, tran- stand. Canopycoverofnative forbs andcrypto- sects were 20 m long, and one quadrat was gamgroundcoverinthisstandwereparticularly randomlyplacedwithineach2-msegment(N = low, only ca 18% and 4%, respectively, of the 20 quadrats). For the Plilcmn and Festuca corresponding Festuca stand measures. Thus, stands, transects were 100 m long, and one effects ofthe Centaurea macidosa invasion on quadrat was randomly placed within each 5-m the native flora in the study site appear to be segment (N = 40 quadrats per stand). relatively severe. The impact ofthis species is Five vegetation measures were calculated even more impressive considering its relatively foreachindividualquadrat: (1) vascularspecies recententryinto thepark. coverdiversityusingtheShannon-Wienerindex All but one of the Phleum stand measures (H' = -SPilogp,),(2)vascularspeciesrichness, were significantly lower than those of the (3) cumulative canopycoverofnative forb spe- Festucastand(Table2). Canopycoverbynative cies, (4) cumulativecanopycoverofnativegrass graminoids in thePhleum standwas reducedto wspaeyciAesN,OaVnAds(5w)esruerfuasceedctroypastsoegsasmamcoovnegr-.sOtnaen-d aHboowuetve5r0,%forobfciotsvelrevdeilffienretncheesFbeesttwueceanstthaensd.e differences foreach ofthese quadrat measures. two stands were not statisticiilly significant With the exception of the diversity measures, (Table 2). Three species {Achillea millefolium, data did not meet parametric assumptions Agoseris glauca, and Lupinus sericeus) were (normal distributions, homogeneousvariances) amongthefourforbspecieswithhighestcanopy and could not be transformed using standard cover in each stand, suggesting that the forb logarithmic, arcsine, orsquare roottransforma- components ofthese twostandswere relatively tions. Therefore, data were analyzed by the similar. TheseobservationssuggestthatPhleum Kruskal-Wallis nonparametric one-way ANOVA procedure as described by Conover invasion has affected natixe graminoids more and Iman (1983). TheTukey multiple compari- than native forbs. It should also be noted that while mean quadrat richness was lower in the son procedure, applicable to both parametric and nonparametric ANOVAs (Conover and Phleum stand(Table2),eightmorespecieswere slItomawansndt1hc9aot8m1po)af,rHwiiastsocnuhssc.eodcSkpteoacmnidaeskCe^nroponamtiejrnu-icwslitaset(1ua9rm7eo3)nf.gol-- Pr(ehNcl=oeru5dm9edvvss..inNFtehs=itsu5s1ct;aasrneidecthThnaaebsnlseipna1t)t.hteTerhFnuesss,tmuadciyaffosectrcaeunnrdt if comparisons are derived from samplingunits larger than the 0.1-m~ quadrats used in this Results and Discussion study. Cryptogam cover in the Phleum stand was Prominentgraminoidandforbspeciesinthe approximately 50% lower than in the Festuca Festuca stand included Achillea millefolium. stand (Table 2). Mack and Thompson (1982) 1992] Notes 191 Table 1. Canopvcover(%)estimatesofsix^cieswithintheFcstuca, Phlcitin, andCcnidurcd stands. ° = iJiensjieeies. Species ) 192 GreatBasin Naturalist [Volume52 Worley 1992) suggests that livestock grazing is soils in Navajo National Monument, Arizona. Gre*^ notaprerequisiteforsuccessfulinvasionof nat- Basin Naturalist43: 73-78. CONOVER. W. and R. L. Iman 1981. Rank transforma- uralareasbythisspecies.ThesuccessofbothP. tionsasabJr.,idgebetweenparametricandnonparamet- pratense and C. maculosa in the studysite sug- ricstatistics. American Statistician.35: 124—129. goefsatlsietnhaftlomreacihnaangirsom-ssypstreompso,see.dg.f,orratphiedscuoclcoensis- Wiley. i1u9i8d3S.onAs,mInoc.d,eNmewapYporroka.c4h97topps.tatistics. John Daubenmire. R. 1970. Stepjievegetation ofWashington. zation ofdisturbedsites, structural and physio- WashingtonAgriculturalExperimentiJStationTechni- logical adaptations to grazing and trampling, cal Bulletin62. 131pp. andlowpiilataliilit}'(MackandThompson 1982 FiNKLiN, A. 1. 19—86. A climatic handbook for Glacier and references therein, Lacey et al. 1986, NationiilPark withdataforWatertonL;ikesNational Locken and Kelsey 1987, Kelsey and Bedunah Park. USDA Forest Service Intermountain Research Station General Technical Report INT-204. Ogden, 1989), mayalsooperateinnaturalareasystems. Utiili. 124pp. In addition to overwintering elk, diggings of Glacier National Park Records 19.39. Correspond- other native herbivores, especially ground encebetween WD. S. Libbev, GlacierParkSupe..nten- squirrels (Sperniopliilus Columbiamis), were dent, and G. Noffsinger, President of the Park commonthroughoutthestudyarea.Atanyrate, ASracdhdilvees.HoGrlsaecieCroNmaptainoyna,l Pdaartke,dWeAsugtuGsltaci1e4r,, M19o3n9-. though the status and impacts of C. maculosa tana. andP. pratense requireadditional research, this Hitchcock. C. L., tmdA. Cronquist x973. Floraofthe study shows that the potential effects oft—hese Pacific Northwest. Universitv' of Wtishington Press, species—particularlv that of C. maculosa in Seattle.730pp. naturalareabunchgrassprairiesneedtobeseri- Kelsecya,ncRe.oGf.,iiallnedloDp.athJ,vBfoerdCuenntaahure19a89s.peEccioelsoignictahlesniogrntilfii-- ouslycontemplated. westemUnitedStates.Pages10-.32inP.K.FaviuidJ.R. Reduction ofPlileum pratense is not a real- Lacev,eds., Knapweeds\nnposiumproceedings. Exten- istic option in Glacier National Park or other sionService,MontanaStateUnixersitv,Bozeman.EB45. naturalareasinwhichthisspeciesisnowwidely KoTENRoBrAt,hW.FoDr.k,avnaldlJe.v.R.GlHaacibeerckNat1i9o7n1a.lGPrairsks.laMnodnstoafntah.e established. Perhaps the most reasonable rec- CanadituiJournalofBotiuiy49: 1627-1636. ommendation for this species and other Eura- Lacey, C. 1989. Knapweed management: a decade of siangrassesissimplythatresourcemanagersnot change. Pages 1-6 //; P. K. FavandJ. R. Lacey, eds.. use these species for revegetation (see also vKincea,pMwoenetdansaymSptaotseiUunmiveprrsoicteye,diBnogzse.maEnx.teEnsBio4n5.Ser- Wilson 1989). Centaurea maculosa, though Lacey, C. A., R. L\c:ey, T K. Ciiicoine. P K. Fay, and potentially more ecologically disruptive than P. R. A. FreJ.nch 1986. Controllingknapweedon Mon- pratense, is at an earlierstage ofinvasion in the tana rangeland. Circukir 311. Coojierative Extension park and probabK'in othernatural areas in this Service,MontanaStateUniversity, Bozeman. 15pp. regionaswell.Thus,thefateofthisspeciesmay Lockteino,nsLi.nJC.,enatnaduRr.eaG.maKceullsoesya., 1s9p8o7t.teCdnikcnianpwceoendc.enBtino-- yetbeinfluencedbyappropriateresourceman- cheiuic;ilSvstematicsandEcology 15:31.3-.320. agement actions. Mack, R.N. 1986.AlienplantinxasionintotheIntermoun- tain West: a case historv Pages 191-213 in: H. A. Moonev and A. Drake, eds.. Ecology ofbiological Acknowledgments J. invasions of North America and Hawaii. Springer- Verlag,NewYork. I thank Tom Jacobsen and Andy Tyser for invasi.o1n9s8:9.chTaermacpteerria.tsteicgsrasixsnldandcsonvsuelqnueernacbeles.toPpalgaenst their assistance with fieldwork, Andy Matchett 15.5-179 in ]. A. Driike, H. A. Mooney, F di Ctistri, forstatisticaladvice, and Glaciers research and R. H.Groves,F. Kmger, M. Rejmanek,andM.Wil- J. resource management staff for support and liamson, eds.. Biological invasions. John VV'iley and assistancewith thisstud\'.Thestudywasfunded Sons, NewYork. by a grant from the Universit\' of Wyomincj- Mack, R. N., and J. N. Thompson 1982. Evolution in steppe with few large, hooved manuuals. .\merictui National Park Service Research Center. Naturali.st 119: 757-773. Martinka. C. 1983. Wildlife management in Glacier J. Literature Cited NatiouiJ Park: aCregionalperspective. Pages 48 56. R.C. Scaceand Martinka,eds.,Towtu'cLsthebio- J. .spherereserve: exploringrelationships behveenparks Anukrson, D. C, K. T Hahpkh. am! R. C. IIoi,mc:kkn and adjacent huids. U.S. Depiirtment ofthe Interior, 1982.Factorsinfliu'ricingdevelopmentofcrvptogamic Natiouiil ParkSenice. soilcrustsin Utahdeserts.JournalofRange Manage- Muec.cler, W. F, ;uid W. L. Stewart 1980. Grassland ment35: 180-185. and shnibland habitat tvpes of western Montana. Brotherson. J. D., and S. R. Riisiikoktii 19S3. Influ- USDAForestServiceGenenJTechnical ReportINT- enceofcryptogamiccnistsonmoisturerelationshipsof 66.Ogden, Utah. 1.54pp. 1992] Notes 193 ^•"CiiERT. H.C,;uk1J. Skujins 1974. Nitrogenfixation In Weaner. T, and B. Wbons 1985. The exotic flora of blue-green iilgae-lichen crusts in the Great Basin GlacierNation;UPtuk:apreliniiniin atlas.MSU Biology desert.SoilScienceSocietvofAmericaProceedings38: Report37. MontanaState Uiii\ersit\-.Bozeiuan.49pp. 76JV-771. 1986. TheexoticfloraofGrandTeton National Stringer, P.W. 1973.Anecologicalstudyofgrasslandsin Park:.an environmental atlas. MSU Report 38. Mon- Banff, Jasper, and Waterton Lakes National Parks. tanaState University, Bozeman.48pp. C'anadi;uiJournalofBot;ui\'51: 3S.3-411. WiL.soN. S. D. 1989. The suppression ofnative prairie by T>SER, R. W'., and C. H. KEn 1988. Spotted knapweed in alien species introduced for revegetati(jn. Landscape natural area fescue gr;isslands: an ecological assess- and Urb;ui Phuming 17: 11.3-119. ment. NorthwestScience62: 151-160. YoLNc;.J.A.,R.A. E\a\s.andJ.Major. 1972.Alienplants 'HsF.R. R.VV.,iindC.A.WoRLF.V 1992.Alienfloraingrass- intheGreatBasin.JournalofRangeManagement2.5: lands adjacent to road and trail corridors in Glacier 194-201. National Park, Montana (U.S.A.). Conservation Biol- ogy. Inpress. Received26April 1991 Watson. A. K., and A. Renney 1974. The biolog\- of Accepted16April1992 J. Canadianweeds.6.CentaureadiffusaandC.nmailosa. CinadiiinJournalofPlantScience.54:687-701.