Phenology research for natural resource management in the United States (original) (raw)
References
Aguilar R, Ashworth L, Galetto L, Aizen MA (2006) Plant reproductive susceptibility to habitat fragmentation: review and synthesis through a meta-analysis. Ecol Lett 9:968–980 Article Google Scholar
Altizer S, Bartel R, Han BA (2011) Animal migration and infectious disease risk. Science 331:296–302 ArticleCAS Google Scholar
Anderson JT, Inouye DW, McKinney AM, Colautti RI, Mitchell-Olds T (2012) Phenotypic plasticity and adaptive evolution contribute to advancing flowering phenology in response to climate change. Proc R Soc B-Biological Sci 279:3843–3852 Article Google Scholar
Ault TR, Henebry GM, de Beurs KM, Schwartz MD, Betancourt JL, Moore D (2013) Lessons from the false spring of 2012, earliest on record in North America. EOS, Trans Am Geophys Union 94:181–182 Article Google Scholar
Austen DJ (2011) Landscape Conservation Cooperatives: a science-based network in support of conservation. The Wildlife Professional, Fall, 2011 Google Scholar
Aono Y, Kazui K (2008) Phenological data series of cherry tree flowering in Kyoto, Japan, and its application to reconstruction of springtime temperatures since the 9th century. Int J Climatol 28:905–914 Article Google Scholar
Bagne KE, Friggens MM, Finch DM (2011). A system for assessing vulnerability of species (SAVS) to climate change. US Department of Agriculture, Forest Service, Rocky Mountain Research Station
Bellard C, Bertelsmeier C, Leadley P, Thuiller W, Courchamp F (2012) Impacts of climate change on the future of biodiversity. Ecol Lett 15:365–377 Article Google Scholar
Both C, Bouwhuis S, Lessells CM, Visser ME (2006) Climate change and population declines in a long-distance migratory bird. Nature 441:81–83 ArticleCAS Google Scholar
Both C, van Asch M, Bijlsma RG, van den Burg AB, Visser ME (2009) Climate change and unequal phenological changes across four trophic levels: constraints or adaptations? J Anim Ecol 78:73–83 Article Google Scholar
Bradley NL, Leopold AC, Ross J, Huffaker W (1999) Phenological changes reflect climate change in Wisconsin. Proc Natl Acad Sci U S A 96:9701–9704 ArticleCAS Google Scholar
Carpenter SR, Bennett EM, Peterson GD (2006) Scenarios for ecosystem services: an overview. Ecol Soc 11(1):29 Google Scholar
Cahill AE, Aiello-Lammens ME, Fisher-Reid MC, Hua X, Karanewsky CJ, Yeong Ryu H, Sbeglia GC, Spagnolo F, Waldron JB, Warsi O, Wiens JJ (2012) How does climate change cause extinction? Proceedings of the Royal Society B: Biological Sciences 280 online early doi: 10.1098/rspb.2012.1890.
Chen IC, Hill JK, Ohlemuller R, Roy DB, Thomas CD (2011) Rapid range shifts of species associated with high levels of climate warming. Science 333:1024–1026 ArticleCAS Google Scholar
Chuine I, Yiou P, Viovy N, Seguin B, Daux V, Ladurie EL (2004) Grape ripening as a past climate indicator. Nature 432:289–290 ArticleCAS Google Scholar
Chuine I (2010) Why does phenology drive species distribution? Phil Trans R Soc B-Biolog Sci 365:3149–3160 Article Google Scholar
Cleland EE, Chuine I, Menzel A, Mooney HA, Schwartz MD (2007) Shifting plant phenology in response to global change. Trends Ecol, Evol 22:357–365 Article Google Scholar
Cleland EE, Allen JM, Crimmins TM, Dunne JA, Pau S, Travers S, Zavaleta ES, Wolkovich EM (2012) Phenological tracking enables positive species responses to climate change. Ecology 93:1765–1771 Article Google Scholar
Cook BI, Terando A, Steiner A (2010) Ecological forecasting under climatic data uncertainty: a case study in phenological modeling. Environ Res Lett 5:044014. doi:10.1088/1748-9326/5/4/044014 Article Google Scholar
Denny EG, Gerst KL, Miller-Rushing AJ, Tierney GL, Crimmins TM, Enquist CAF, Guertin P, Rosemartin AH, Schwartz MD, Thomas KA, Weltzin JF (2013) Standardized phenology monitoring methods to track plants and animal activity for science and resource management applications. Int J Biometeorol. (in press)
Diez JM, Ibáñez I, Miller-Rushing AJ, Mazer SJ, Crimmins TM, Crimmins MA, Bertelsen, CD, Inouye DW (2012) Forecasting phenology: from species variability to community patterns. Ecol lett 15:545–553 Google Scholar
Donnelly A, Caffarra A, O’Neill BF (2011) A review of climate-driven mismatches between interdependent phenophases in terrestrial and aquatic ecosystems. Int J Biometeorol 55:805–817 Article Google Scholar
Durant JM, Hjermann DO, Anker-Nilssen T, Beaugrand G, Mysterud A, Pettorelli N, Stenseth NC (2005) Timing and abundance as key mechanisms affecting trophic interactions in variable environments. Ecol Lett 8:952–958 Article Google Scholar
Edwards M, Richardson AJ (2004) Impact of climate change on marine pelagic phenology and trophic mismatch. Nature 430:881–884 ArticleCAS Google Scholar
Ellwood ER, Temple SA, Primack RB, Bradley NL, Davis CC (2013) Record-breaking early flowering in the eastern United States. PloS ONE 8:e53788 ArticleCAS Google Scholar
Enquist CAF, Miller-Rushing AJ (2011) Standards and tools for using phenology in science, management, and education. Park Sci 28(2):70 Google Scholar
Enquist CAF, Rosemartin A, Schwartz MD (2012) Identifying and prioritizing phenological data products and tools. Eos, Transactions American Geophysical Union 93 (37):356.
Fridley JD (2012) Extended leaf phenology and the autumn niche in deciduous forest invasions. Nature 485:359–U105 ArticleCAS Google Scholar
Ghersa CM, Holt JS (1995) Using phenology prediction in weed management: a review. Weed Res 35:461–470 Article Google Scholar
Glick P, Stein BA, Edelson NA (eds) (2011) Scanning the conservation horizon: a guide to climate change vulnerability assessment. National Wildlife Federation, Washington, DC, USA Google Scholar
Gu L, Hanson PJ, Mac Post W, Kaiser DP, Yang B, Nemani R, Pallardy SG, Meyers T (2008) The 2007 eastern US spring freezes: increased cold damage in a warming world? Bioscience 58:253–262 Article Google Scholar
Haggerty BP, Matthews ER, Gerst KL, Evenden AG, Mazer SJ (2013) The California Phenology Project: tracking plant responses to climate change. Madroño 60:1–3 Article Google Scholar
Harvell CD, Mitchell CE, Ward JR, Altizer S, Dobson AP, Ostfeld RS, Samuel MD (2002) Ecology—climate warming and disease risks for terrestrial and marine biota. Science 296:2158–2162 ArticleCAS Google Scholar
Hegland SJ, Nielsen A, Lazaro A, Bjerknes A-L, Totland O (2009) How does climate warming affect plant–pollinator interactions? Ecol Lett 12:184–195 Article Google Scholar
Herms DA (2004) Using degree-days and plant phenology to predict pest activity. In: V. Krischik and J. Davidson, Eds. IPM (Integrated Pest Management) of Midwest Landscapes, pp. 49–59. Minnesota Experiment Station Publication SB-07645, 316 pp.
Holzkamper A, Calanca P, Fuhrer J (2013) Identifying climatic limitations to grain maize yield potentials using a suitability evaluation approach. Agric Forest Meteorol 168:149–159 Article Google Scholar
Ibáñez I, Primack RB, Miller-Rushing AJ, Ellwood E, Higuchi H, Lee SD, Kobori H, Silander JA (2010) Forecasting phenology under global warming. Philos Trans R Soc, B 365:3247–3260 Article Google Scholar
Inouye DW (2008) Effects of climate change on phenology, frost damage, and floral abundance of montane wildflowers. Ecology 89:353–362 Article Google Scholar
IPCC (2007) Climate Change 2007: Synthesis Report. Contribution of Working Groups I, II and III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change [Core Writing Team, Pachauri, R.K and Reisinger, A.(eds.)]. IPCC, Geneva, Switzerland, 104 pp.
Jolly WM, Nemani R, Running SW (2005) A generalized, bioclimatic index to predict foliar phenology in response to climate. Glob Chang Biol 11(4):619–632 Article Google Scholar
Jones BK, Bogen H, Verrecken H, Weltzin JF (2010) Design and importance of multi-tiered ecological monitoring networks. In: Müller F, Baessler C, Schubert H, Klotz S (eds) Long-term ecological research. Springer Science + Business Media B.V, New York, pp 355–374 Chapter Google Scholar
Knudsen E, Lindén A, Both C, Jonzén N, Pulido F, Saino N, Sutherland WJ, Bach LA, Coppack T, Ergon T, Gienapp P, Gill JA, Gordo O, Hedenström A, Lehikoinen E, Marra PP, Møller AP, Nilsson ALK, Péron G, Ranta E, Rubolini D, Sparks TH, Spina F, Studds CE, Sæther SA, Tryjanowski P, Stenseth NC (2011) Challenging claims in the study of migratory birds and climate change. Biol Rev 86:928–946 Article Google Scholar
Kremen C, Williams NM, Aizen MA, Gemmill-Herren B, LeBuhn G, Minckley R, Packer L, Potts SG, Roulston TA, Steffan-Dewenter I, Vazquez DP, Winfree R, Adams L, Crone EE, Greenleaf SS, Keitt TH, Klein A-M, Regetz J, Ricketts TH (2007) Pollination and other ecosystem services produced by mobile organisms: a conceptual framework for the effects of land-use change. Ecol Lett 10:299–314 Article Google Scholar
Lancashire PD, Bleiholder H, Vandenboom T, Langeluddeke P, Stauss R, Weber E, Witzenberger A (1991) A uniform decimal code for growth-stages of crops and weeds. Ann Appl Biol 119:561–601 Article Google Scholar
Lavalle C, Micale F, Houston TD, Camia A, Hiederer R, Lazar C, Conte C, Amatulli G, Genovese G (2009) Climate change in Europe. 3. Impact on agriculture and forestry. A review (Reprinted). Agron Sustain Dev 29:433–446 Article Google Scholar
Lawler JJ, Tear TH, Pyke C, Shaw MR, Gonzalez P, Kareiva P, Pearsall S (2010) Resource management in a changing and uncertain climate. Front Ecol Environ 8(1):35–43 Article Google Scholar
Levin DA (2006) Flowering phenology in relation to adaptive radiation. Syst Bot 31:239–246 Article Google Scholar
Lovett GM, Burns DA, Driscoll CT, Jenkins JC, Mitchell MJ, Rustad L, Shanley JB, Likens GE, Haeuber R (2007) Who needs environmental monitoring? Front Ecol Environ 5:253–260 Article Google Scholar
Marino GP, Kaiser DP, Gu L, Ricciuto DM (2011) Reconstruction of false spring occurrences over the southeastern United States, 1901–2007: an increasing risk of spring freeze damage? Environ Res Lett 6:024015. doi:10.1088/1748-9326/6/2/024015 Article Google Scholar
McKinney AM, Goodell K (2011) Plant–pollinator interactions between an invasive and native plant vary between sites with different flowering phenology. Plant Ecol 212:1025–1035 Article Google Scholar
McKinney AM, CaraDonna PJ, Inouye DW, Barr B, Bertelsen CD, Waser NM (2012) Asynchronous changes in phenology of migrating Broad-tailed Hummingbirds and their early-season nectar resources. Ecology 93:1987–1993 Article Google Scholar
Melaas EK, Friedl MA, Zhu Z (2013) Detecting interannual variation in deciduous broadleaf forest phenology using Landsat TM/ETM + data. Remote Sens Environ 132:176–185 Article Google Scholar
Memmott J, Craze PG, Waser NM, Price MV (2007) Global warming and the disruption of plant–pollinator interactions. Ecol Lett 10:710–717 Article Google Scholar
Menzel A, Sparks TH, Estrella N, Koch E, Aasa A, Ahas R, Alm-Kuebler K, Bissolli P, Braslavska OG, Briede A, Chmielewski FM, Crepinsek Z, Curnel Y, Dahl A, Defila C, Donnelly A, Filella Y, Jatcza K, Mage F, Mestre A, Nordli O, Penuelas J, Pirinen P, Remisova V, Scheifinger H, Striz M, Susnik A, Van Vliet AJH, Wielgolaski F-E, Zach S, Zust A (2006) European phenological response to climate change matches the warming pattern. Glob Chang Biol 12:1969–1976 Article Google Scholar
Miller-Rushing AJ, Primack RB, Primack D, Mukunda S (2006) Photographs and herbarium specimens as tools to document phenological changes in response to global warming. Am J Bot 93:1667–1674 Article Google Scholar
Miller-Rushing AJ, Hoye TT, Inouye DW, Post E (2010) The effects of phenological mismatches on demography. Phil Trans R Soc B-Biological Sci 365:3177–3186 Article Google Scholar
Miller-Rushing AJ, Evenden A, Gross J, Mitchell B, Sachs S (2011) Parks use phenology to improve management and communicate climate change. Park Sci 28:61–67 Google Scholar
Milly PCD, Julio B, Malin F, Robert MH, Zbigniew WK, Dennis PL, Ronald JS (2008) Stationarity is dead. Science 319:573–574 ArticleCAS Google Scholar
Møller AP, Rubolini D, Lehikoinen E (2008) Populations of migratory bird species that did not show a phenological response to climate change are declining. Proc Natl Acad Sci U S A 105:16195–16200 Article Google Scholar
Morecroft MD, Bealey CE, Beaumont DA, Benham S, Brooks DR, Burt TP, Critchley CNR, Dick J, Littlewood NA, Monteith DT, Scott WA, Smith RI, Walmsey C, Watson H (2009) The UK Environmental Change Network: emerging trends in the composition of plant and animal communities and the physical environment. Biol Conserv 142:2814–2832 Article Google Scholar
Morin X, Augspurger C, Chuine I (2007) Process-based modeling of species’ distributions: what limits temperate tree species’ range boundaries? Ecology 88:2280–2291 Article Google Scholar
Morisette JT, Richardson AD, Knapp AK, Fisher JI, Graham EA, Abatzoglou J, Wilson BE, Breshears DD, Henebry GM, Hanes JM, Liang L (2009) Tracking the rhythm of the seasons in the face of global change: phenological research in the 21st century. Front Ecol Environ 7(5):253–260 Article Google Scholar
National Ecological Observatory Network (NEON) (2011) Science strategy: enabling continental-scale ecological forecasting, pp. 55
Nichols JD, Williams BK (2006) Monitoring for conservation. Trends Ecol, Evol 21:668–673 Article Google Scholar
Nolan VP, Weltzin JF (2011) Phenology for science, resource management, decision making, and education. Eos, Transactions American Geophysical Union 92 (2):15.
Ollerton J, Lack AJ (1992) Flowering phenology: an example of relaxation of natural selection? Trends Ecol Evol 7:274–276 ArticleCAS Google Scholar
Ozgul A, Childs DZ, Oli MK, Armitage KB, Blumstein DT, Olson LE, Tuljapurkar S, Coulson T (2010) Coupled dynamics of body mass and population growth in response to environmental change. Nature 466(7305):482–485 Google Scholar
Parmesan C, Ryrholm N, Stefanescu C, Hill JK, Thomas CD, Descimon H, Huntley B, Kaila L, Kullberg J, Tammaru T, Tennent WJ, Thomas JA, Warren M (1999) Poleward shifts in geographical ranges of butterfly species associated with regional warming. Nature 399:579–583 ArticleCAS Google Scholar
Parmesan C, Yohe G (2003) A globally coherent fingerprint of climate change impacts across natural systems. Nature 421:37–42 ArticleCAS Google Scholar
Pau S, Wolkovich EM, Cook BI, Davies TJ, Kraft NJB, Bolmgren K, Betancourt JL, Cleland EE (2011) Predicting phenology by integrating ecology, evolution and climate science. Glob Chang Biology 17:3633–3643 Article Google Scholar
Pereira HM, Ferrier S, Walters M, Geller GN, Jongman RHG, Scholes RJ, Bruford MW, Brummitt N, Butchart SHM, Cardoso AC, Coops NC, Dulloo E, Faith DP, Freyhof J, Gregory RD, Heip C, Höft R, Hurtt G, Jetz W, Karp DS, McGeoch MA, Obura D, Onoda Y, Pettorelli N, Reyers B, Sayre R, Scharlemann JPW, Stuart SN, Turak E, Walpole M, Wegmann M (2013) Essential biodiversity variables. Science 339(6117):277–278 ArticleCAS Google Scholar
Perlut NG, Strong AM, Alexander TJ (2011) A model for integrating wildlife science and agri‐environmental policy in the conservation of declining species. J Wildl Manag 75(7):1657–1663 Article Google Scholar
Perry AL, Low PJ, Ellis JR, Reynolds JD (2005) Climate change and distribution shifts in marine fishes. Science 308:1912–1915 ArticleCAS Google Scholar
Peterson GD, Cumming GS, Carpenter SR (2003) Scenario planning: a tool for conservation in an uncertain world. Conserv Biol 17(2):358–366 Article Google Scholar
Post E, Forchhammer MC (2008) Climate change reduces reproductive success of an Arctic herbivore through trophic mismatch. Phil Trans R SocB-Biol Sci 363(1501):2369–2375 Google Scholar
Primack RB (1980) Variation in the phenology of natural populations of montane shrubs in New Zealand. J Ecol 68:849–862 Article Google Scholar
Primack RB, Miller-Rushing AJ (2012) Uncovering, collecting, and analyzing records to investigate the ecological impacts of climate change: a template from Thoreau’s Concord. Bioscience 62:170–181 Article Google Scholar
Pulido F (2007) Phenotypic changes in spring arrival: evolution, phenotypic plasticity, effects of weather and condition. Clim Res 35:5–23 Article Google Scholar
Richardson AD, Black TA, Ciais P, Delbart N, Friedl MA, Gobron N, Hollinger DY, Kutsch WL, Longdoz B, Luyssaert S, Migliavacca M, Montagnani L, Munger JW, Moors E, Piao S, Rebmann C, Reichstein M, Saigusa N, Tomelleri E, Vargas R, Varlagin A (2010) Influence of spring and autumn phenological transitions on forest ecosystem productivity. Philos Trans R Soc, B 365:3227–3246 Article Google Scholar
Root TL, Price JT, Hall KR, Schneider SH, Rosenzweig C, Pounds JA (2003) Fingerprints of global warming on wild animals and plants. Nature 421:57–60 ArticleCAS Google Scholar
Ruckman EM, Schwinning S, Lyons KG (2012) Effects of phenology at burn time on post-fire recovery in an invasive C-4 grass. Restor Ecol 20:756–763 Article Google Scholar
Schwartz MD, Ault TR, Betancourt JL (2012a) Spring onset variations and trends in the continental United States: past and regional assessment using temperature-based indices. Int J Climatol. doi:10.1002/joc.3400 Google Scholar
Schwartz MD, Betancourt JL, Weltzin JF (2012b) From Caprio’s lilacs to the USA National Phenology Network. Front Ecol Environ 10(6):324–327 Article Google Scholar
Singer MC, Parmesan C (2010) Phenological asynchrony between herbivorous insects and their hosts: signal of climate change or pre-existing adaptive strategy? Philos Trans R Soc, B 365:3161–3176 Article Google Scholar
Souriau A, Yiou P (2001) Grape harvest dates for checking NAO paleoreconstructions. Geophys Res Lett 28:3895–3898 Article Google Scholar
Sparks TH, Carey PD (1995) The responses of species to climate over two centuries: an analysis of the Marsham phenological record, 1736–1947. J Ecol 83:321–329 Article Google Scholar
Thuiller W (2007) Biodiversity—climate change and the ecologist. Nature 448:550–552 ArticleCAS Google Scholar
Van Buskirk J, Mulvihill RS, Leberman RC (2012) Phenotypic plasticity alone cannot explain climate-induced change in avian migration timing. Ecol Evol 2:2430–2437 Article Google Scholar
Ventrella D, Charfeddine M, Moriondo M, Rinaldi M, Bindi M (2012) Agronomic adaptation strategies under climate change for winter durum wheat and tomato in southern Italy: irrigation and nitrogen fertilization. Reg Environ Chang 12:407–419 Article Google Scholar
Visser ME, Both C (2005) Shifts in phenology due to global climate change: the need for a yardstick. Proc R Soc B 272:2561–2569 Article Google Scholar
Walters CJ (1986) Adaptive management of renewable resources. McMillan, New York Google Scholar
Walther GR (2010) Community and ecosystem responses to recent climate change. Phil Trans R Soc B-Biological Sci 365:2019–2024 Article Google Scholar
White MA, Beurs D, Kirsten M, Didan K, Inouye DW, Richardson AD, Lauenroth WK (2009) Intercomparison, interpretation, and assessment of spring phenology in North America estimated from remote sensing for 1982–2006. Glob Chang Biol 15(10):2335–2359 Article Google Scholar
Williams SE, Shoo LP, Isaac JL, Hoffmann AA, Langham G (2008) Towards an integrated framework for assessing the vulnerability of species to climate change. PLoS Biol 6(12):e325 Article Google Scholar
Williams BK, Brown ED (2012) Adaptive Management: The U.S. Department of the Interior Applications Guide. Adaptive Management Working Group, U.S. Department of the Interior, Washington, DC.
Willis CG, Ruhfel B, Primack RB, Miller-Rushing AJ, Davis CC (2008) Phylogenetic patterns of species loss in Thoreau’s woods are driven by climate change. Proc Natl Acad Sci U S A 105:17029–17033 ArticleCAS Google Scholar
Willis CG, Ruhfel B, Primack RB, Miller-Rushing AJ, Losos JB, Davis CC (2010) Favorable climate change response explains non-native species’ success in Thoreau’s woods. PloS ONE 5:e8878 Article Google Scholar
Winder M, Schindler DE (2004) Climatic effects on the phenology of lake processes. Glob Chang Biol 10:1844–1856 Article Google Scholar
Wolkovich EM, Cleland EE (2011) The phenology of plant invasions: a community ecology. Front Ecol Environ 9:287–294 Article Google Scholar
Wolkovich EM, Davies TJ, Schaefer H, Cleland EE, Cook BI, Travers SE, Willis CG, Davis CC (2013) Temperature-dependent shifts in phenology contribute to the success of exotic species with climate change. Am J Bot 100:1407–1421. doi:10.3732/ajb.1200478 Article Google Scholar
Yang LH, Rudolf VHW (2010) Phenology, ontogeny and the effects of climate change on the timing of species interactions. Ecol Lett 13:1–10 ArticleCAS Google Scholar
Young B, Byers E, Gravuer K, Hammerson G, Redder A (2010) Guidelines for using the NatureServe Climate Change Vulnerability Index. NatureServe, Arlington Google Scholar