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Ecological and Economical Impact of Snow Molds. By Ken Anderson Winter Ecology, Spring 2009. Mountain Research Station – University of Colorado, Boulder. Outline. Plant winter adaptations Fungal winter adaptations Fungal adaptation for summers Impact on agriculture and golf courses
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Ecological and Economical Impact of Snow Molds By Ken Anderson Winter Ecology, Spring 2009 Mountain Research Station – University of Colorado, Boulder
Outline • Plant winter adaptations • Fungal winter adaptations • Fungal adaptation for summers • Impact on agriculture and golf courses • Forest management • Methods of control
Plant Strategies for Overwintering • Decreased Respiration, Carbohydrate build up, Increased Cryostability of PM (Gaudet D. 1994) • Cross Adaptation in Winter Rye (Hiilovaara-Teijo M. 1999) • Snowpack: Friend + Foe (McBeath J. 2002)
Snow Mold Strategies for Winter Activity • AFP production (Hoshino et al. 2004) (Snider et al. 1999) • Attack plants through stomatal openings or directly through epidermis (McBeath J. 2002) • Low temp active enzymes (Schmidt et al. 2008) • Depth of snow creates different microclimates (McBeath J. 2002)
Snow Mold Strategies for Spring Snow Melt and Summer • Dormancy in the form of Spores: Snow Scard (McBeath J. 2002) • Dormancy in the form of scleortia: Typhula spp. (McBeath J. 2002) • Stay active over summer with limited activity M. Nivale (McBeath J. 2002) • Death of majority of biomass. DIN and DON increase during Spring snow melt (Schmidt et al. 2007)
Economic Impact • Damage to agriculture Winter cereals (Hsiang et al. 1999) • Damage to Golf courses (A. stolonifera damage) (Wang et al. 2005) • “Treatment of [Typhula spp.] may account for half of the chemical fungicide used on turf in [Canada]” (McBeath J. 2002) • Potential control of C. Canadensis by cottony snow mold (Mallet et al. 2000)
Strategies for Control • Modifying strain resistance (Guadet D. 1994) • Ensuring proper acclimatization (Guadet D. 1994) • Fungicide less effective at low temperatures (McBeath 2002) • Don't degrade quickly at low temp • Removing snow cover (Hsiang et al. 1999) • Fall fertilization (Hsiang et al. 1999)
Strategies for Control • Biocontrol against Typhula spp. (Hsiang et al. 1999) • Summer Control • Still potential for airborne inoculation • Fall Control • Expensive but potential for less ecological damage • Winter Control • Requires low temp tolerance
Conclusions • Snow Molds have an important ecological impact • These impacts can be harnessed for forest management • There are effective strategies for reducing impact on crops
Further Research • Effect of LTB on white spruce seedlings • Further resistant strain development of winter cereals • Further microbial bio-control for fall and winter
Questions? Smith J. 1980
Bibliography 1. Christopher S, et al. Role of ice nucleation and antifreeze activities in pathogenesis and growth of snow molds Phytopathology [Internet] 1999 December [cited 2009 Feb 28th] Available from: http://apsjournals.apsnect.org 2. Guadet D. Progress towards understand interaction between cold hardiness and snow mold resistance and development of resistant cultivars C. J. Plant Physiology [Internet] 1994 [cited 2009 Feb 28th] Available from: http://www.cps.scp.ca 3. Hiilovaara-Teijo M, et al. Snow-mold-induced apoplastic proteins in winter rye leaves lack antifreeze activity Plant Physiology [Internet] 1999 October [cited 2009 Feb 28th] Available from: http://www.plantphysiol.org 4. Hsiang T, et al. Biology and management of typhula snow molds of turfgrass Plant Disease [Internet] 1999 [cited 2009 Feb 28th] Available from: http://apsjournals.apsnet.org
Bibliography 5. Hoshino T, et al. Antifreeze proteins from snow mold fungi C. J. Botany [Internet] 2004 Jan [cited 2009 Feb 28th] Available from: http://article.pubs.nrc-cnrc.gc.ca 6. Lipson D, Scmidt K. Seasonal changes in an alpine soil bacterial community in the colorado rocky mountains Appl. Environ. Microbial [Internet] 2004 Jan [cited 2009 Feb 28th] A vailable from: http://cultur.colorado.edu/~kittel/Lipson&Schmidt04_SeasonalDynNiwotBact_AEM.pdf 7. Mallet K, et al. Effect of cottony snow mold on mortality and biomass of calamagrostis canadensis under controlled-environment conditions Biological Control [Internet] 2000 March [cited 2009 Feb 28th] Available from: http://www.sciencedirect.com 8. McBeath J. Snow mold-plant-antagonist interactions: survival of the fittest under the snow Apsnet Feature [Intenet] 2002 March [cited 2009 Feb 28th] Available from: http://www.apsnet.org
Bibliography 9. Schadt C, et al. Seasonal dynamics of previously unknown fungal lineages in tundra Science [Internet]. 2003 September [cited 2009 Feb 28th] Available from: http://culter.colorado.edu/~kittel/Schadt00_SeasonalDynNiwotFungi 10. Schmidt S, et al. Biogeochemical consequences of rapid microbial turnover and seasonal succession in soil Ecology [Internet] 2007 [cited 2009 Feb 28th] Available from: http://www.esajournals.org/ 11. Schmidt S, et al. Phylogeny and ecophysiology of opportunistic “snow molds” from a subalpine forest ecosystem Microb Ecol [Internet]. 2008 April [cited 2009 Feb 28th] Available from: http://culter.colorado.edu/~kittel/schmidt708_SnowMold_MicrobEcol.pdf 12. Smith J. Snow Molds of Winter Cereals: guide for diagnosis, culture, and pathogenicity C. J. Plant Pathology 1980 [cited 2009 Feb 28th] Available from: http://cps-scp.ca
Bibliography 13. Wang Z, et al. Genotypic variation for snow mold reaction among creeping bengrass clones Crop Science [Internet] 2005 [cited 2009 Feb 28th] Available from: http://crop.scijournals.org