Jump to content

Season creep

From Wikipedia, the free encyclopedia

After a stable average for a thousand years, cherry blossoms in Japan have been emerging earlier since 1800 due to climate change[1]
Changes in ragweed pollen season in the United States and Canada, 1995 to 2013. At a site in Saskatchewan, the season had increased in length by 27 days.

In phenology, season creep refers to observed changes in the timing of the seasons,[2][3] such as earlier indications of spring[4] widely observed in temperate areas across the Northern Hemisphere.[5][6] Phenological records analyzed by climate scientists have shown significant temporal trends in the observed time of seasonal events,[7][8] from the end of the 20th century and continuing into the 21st century.[6][9] In Europe, season creep has been associated with the arrival of spring moving up by approximately one week in a recent 30-year period.[10][11] Other studies have put the rate of season creep measured by plant phenology in the range of 2–3 days per decade advancement in spring, and 0.3–1.6 days per decade delay in autumn, over the past 30–80 years.[12]

Observable changes in nature related to season creep include birds laying their eggs earlier and buds appearing on some trees in late winter.[13] In addition to advanced budding, flowering trees have been blooming earlier, for example the culturally-important cherry blossoms in Japan,[14][15] and Washington, D.C.[16][17][18] Northern hardwood forests have been trending toward leafing out sooner, and retaining their green canopies longer.[19] The agricultural growing season has also expanded by 10–20 days over the last few decades.[20]

The effects of season creep have been noted by non-scientists as well, including gardeners who have advanced their spring planting times,[21] and experimented with plantings of less hardy warmer climate varieties of non-native plants.[22] While summer growing seasons are expanding, winters are getting warmer and shorter, resulting in reduced winter ice cover on bodies of water,[23] earlier ice-out,[24] earlier melt water flows,[25] and earlier spring lake level peaks.[26] Some spring events, or "phenophases", have become intermittent or unobservable; for example, bodies of water that once froze regularly most winters now freeze less frequently,[9][27][28] and formerly migratory birds are now seen year-round in some areas.[29]

Relationship to global warming

[edit]
The American Robin has ceased to migrate in some areas

The full impact of global warming is forecast to happen in the future, but climate scientists have cited season creep as an easily observable effect of climate change[30] that has already occurred and continues to occur.[6][13][20][31] A large systematic phenological examination of data on 542 plant species in 21 European countries from 1971–2000 showed that 78% of all leafing, flowering, and fruiting records advanced while only 3% were significantly delayed, and these observations were consistent with measurements of observed warming.[11][32] Similar changes in the phenology of plants and animals are occurring across marine, freshwater, and terrestrial groups studied, and these changes are also consistent with the expected impact of global warming.[33]

While phenology fairly consistently points to an earlier spring across temperate regions of North America, a recent comprehensive study of the subarctic showed greater variability in the timing of green-up, with some areas advancing, and some having no discernible trend over a recent 44-year period.[34] Another 40 year phenological study in China found greater warming over that period in the more northerly sites studied, with sites experiencing cooling mostly in the south, indicating that the temperature variation with latitude is decreasing there.[35] This study also confirmed that season creep was correlated with warming, but the effect is non-linear—phenophases advanced less with greater warming, and retarded more with greater cooling.[35]

Shorter winters and longer growing seasons may appear to be a benefit to society from global warming, but the effects of advanced phenophases may also have serious consequences for human populations. Modeling of snowmelt predicted that warming of 3 to 5 °C in the Western United States could cause snowmelt-driven runoff to occur as much as two months earlier, with profound effects on hydroelectricity, land use, agriculture, and water management.[36] Since 1980, earlier snowmelt and associated warming has also been associated with an increase in length and severity of the wildfire season there.[37]

Season creep may also have adverse effects on plant species as well. Earlier flowering could occur before pollinators such as honey bees become active, which would have negative consequences for pollination and reproduction.[18] Shorter and warmer winters may affect other environmental adaptations including cold hardening of trees, which could result in frost damage during more severe winters.[18]

Etymology

[edit]

Season creep was included in the 9th edition of the Collins English Dictionary published in London June 4, 2007.[38][39] The term was popularized in the media after the report titled "Season Creep: How Global Warming Is Already Affecting The World Around Us" was published by the American environmental organization Clear the Air on March 21, 2006.[40] In the "Season Creep" report, Jonathan Banks, Policy Director for Clear the Air, introduced the term as follows:

While to some, an early arrival of spring may sound good, an imbalance in the ecosystem can wreak havoc. Natural processes like flowers blooming, birds nesting, insects emerging, and ice melting are triggered in large part by temperature. As temperatures increase globally, the delicately balanced system begins to fall into ecological disarray. We call this season creep.[40]

See also

[edit]

Other uses

[edit]

The term "season creep" has been applied in other contexts as well:

References

[edit]
  1. ^ Samenow, Jason (29 March 2021). Washington Post https://www.washingtonpost.com/weather/2021/03/29/japan-kyoto-cherry-blossoms-record/. Retrieved 15 November 2024. {{cite news}}: Missing or empty |title= (help)
  2. ^ Gabay, Jonathan (2006). "23. So What's New?". Gabay's Copywriters' Compendium (Second Edition: The Definitive Professional Writers Guide ed.). Oxford: Butterworth-Heinemann. pp. 701. ISBN 978-0-7506-8320-3. Season creep n. Earlier spring weather and other gradual seasonal shifts caused by global climate change.
  3. ^ a b Maxwell, Kerry (18 September 2006). "Macmillan English Dictionary Word Of The Week Archive - "Christmas creep"". New Words. Macmillan Publishers. Archived from the original on 20 March 2007. Retrieved 26 December 2007. ...season creep, earlier spring weather and seasonal shifts caused by global climate change
  4. ^ Maxwell, Kerry (December 2007). "A review of 2007 in twelve words". MED Magazine. Macmillan English Dictionaries. Retrieved 23 December 2007. It's a classic case of the newly identified phenomenon of season creep, where Winters are warmer and Spring arrives earlier.
  5. ^ Schwartz, M. D.; Ahas, R.; Aasa, A. (2006). "Onset of spring starting earlier across the Northern Hemisphere". Global Change Biology. 12 (2): 343–351. Bibcode:2006GCBio..12..343S. doi:10.1111/j.1365-2486.2005.01097.x. S2CID 86329402. SI first leaf dates, measuring change in the start of 'early spring' (roughly the time of shrub budburst and lawn first greening), are getting earlier in nearly all parts of the Northern Hemisphere. The average rate of change over the 1955–2002 period is approximately -1.2 days per decade.
  6. ^ a b c Cleland, E.E.; Chiariello, N.R.; Loarie, S.R.; Mooney, H.A.; Field, C.B. (2006). "Diverse responses of phenology to global changes in a grassland ecosystem". Proceedings of the National Academy of Sciences. 103 (37): 13740–4. Bibcode:2006PNAS..10313740C. doi:10.1073/pnas.0600815103. PMC 1560087. PMID 16954189. Shifting plant phenology (i.e., timing of flowering and other developmental events) in recent decades establishes that species and ecosystems are already responding to global environmental change. Earlier flowering and an extended period of active plant growth across much of the northern hemisphere have been interpreted as responses to warming.
  7. ^ McFedries, Paul (August 2006). "Changing Climate, Changing Language". IEEE Spectrum. Archived from the original on 15 April 2013. Retrieved 23 December 2007. Did spring seem to arrive a bit earlier than usual this year in your part of the world? That wouldn't be surprising, because we seem to be undergoing season creep: earlier spring weather and other gradual seasonal shifts, particularly those caused by global climate change.
  8. ^ Sayre, Carolyn (17 December 2006). "The Year in Buzzwords 2006". TIME. Archived from the original on 21 January 2007. Retrieved 26 December 2007. SEASON CREEP n. Spring seemed to come early this year--and summer lasted a bit longer. What's to blame? Most scientists say global warming.
  9. ^ a b Skinner, Victor (17 February 2007). "Area temperatures expected to rise back to 'normal'". Traverse City Record-Eagle. Archived from the original on 28 July 2011. Retrieved 27 December 2007. ...the west arm of Grand Traverse Bay ... has only frozen over five times since 1987,.... Between 1851 and 1980, [it] froze at least seven years per decade, ... the bay-freezing trend shows 'a long-term gradual decline with a significant decline in the past 25 to 35 years.'
  10. ^ Stutz, Bruce (21 April 2006). "Suddenly spring". The Record (Bergen County, NJ). Archived from the original on 16 May 2011. Retrieved 23 December 2007. In fact, due to global warming, spring across the Northern Hemisphere arrives a week or more earlier than it did 30 years ago, a phenomenon starting to be known as "season creep."
  11. ^ a b "Climate changes shift springtime : A Europe-wide study has provided "conclusive proof" that the seasons are changing, with spring arriving earlier each year, researchers say". Science/Nature. BBC News. 25 August 2006. Retrieved 28 December 2007. Spring was beginning on average six to eight days earlier than it did 30 years ago, the researchers said.
  12. ^ Sherry, R.A.; Zhou, X.; Gu, S.; Arnone Iii, J.A.; Schimel, D.S.; Verburg, P.S.; Wallace, L.L.; Luo, Y. (2007). "Divergence of reproductive phenology under climate warming". Proceedings of the National Academy of Sciences. 104 (1): 198–202. Bibcode:2007PNAS..104..198S. doi:10.1073/pnas.0605642104. PMC 1713188. PMID 17182748. Phenology is a sensitive biosphere indicator of climate change. Long-term surface data and remote sensing measurements indicate that plant phenology has been advanced by 2–3 days in spring and delayed by 0.3–1.6 days in autumn per decade in the past 30–80 years, resulting in extension of the growing season.
  13. ^ a b "Man bags at ten paces? Just look it up". Scotsman.com News. 4 June 2007. Retrieved 23 December 2007. While the full impact of global warming is still to be experienced, many scientists are warning that it is responsible for earlier springs leading to longer summers.
  14. ^ Miller-rushing, A.J.; Katsuki, T.; Primack, R.B.; Ishii, Y.; Lee, S.D.; Higuchi, H. (2007). "Impact of global warming on a group of related species and their hybrids: cherry tree (Rosaceae) flowering at Mt. Takao, Japan". American Journal of Botany. 94 (9): 1470–8. doi:10.3732/ajb.94.9.1470. PMID 21636514. We examined a 25-yr record (1981–2005) of flowering times for 97 trees, representing 17 species and hybrids of cherry (Cerasus sp. or Prunus sp.) grown at Mt. Takao, in Tokyo, Japan. The cherry trees flowered earlier over time, by an average of 5.5 d over the 25-yr study.
  15. ^ Cleland, E.E.; Chuine, I.; Menzel, A.; Mooney, H.A.; Schwartz, M.D. (2007). "Shifting plant phenology in response to global change" (PDF). Trends in Ecology & Evolution. 22 (7): 357–365. Bibcode:2007TEcoE..22..357C. doi:10.1016/j.tree.2007.04.003. PMID 17478009. S2CID 34408962. Retrieved 29 December 2007. The longest and best known phenological records come from the Far East and Europe, including ... the 1300+-year Kyoto cherry blossom time series [37]... These longterm historical records can serve as proxies for temperature where thermometer data are unavailable.[permanent dead link]
  16. ^ Abu-asab, M.S.; Peterson, P.M.; Shetler, S.G.; Orli, S.S. (2001). "Earlier plant flowering in spring as a response to global warming in the Washington, DC, area" (PDF). Biodiversity and Conservation. 10 (4): 597–612. Bibcode:2001BiCon..10..597A. doi:10.1023/A:1016667125469. S2CID 21391086. Retrieved 27 June 2009.
  17. ^ Peterson, Paul M.; Stanwyn G. Shetler; Mones S. Abu-Asab; Sylvia S. Orli (2005). "Chapter 8 Global Climate Change: The Spring Temperate Flora". In Krupnick, Gary A; W. John Kress (eds.). Plant conservation: a natural history approach. Chicago: University of Chicago Press. p. 192. ISBN 978-0-226-45513-6. Finally, there is the Cherry Blossom Festival in Washington, DC, each spring. On average the two principal species, Prunus serrulata (Kwanzan cherry and other varieties) and P. X yedoensis ( Yoshino cherry), bloom six and nine days earlier, respectively, than they did in 1970.
  18. ^ a b c Chung, Uran; Mack, Liz; Yun, Jin I.; Kim, Soo-Hyung (2011). Harvey, Jeffrey A (ed.). "Predicting the Timing of Cherry Blossoms in Washington, DC and Mid-Atlantic States in Response to Climate Change". PLoS ONE. 6 (11): e27439. Bibcode:2011PLoSO...627439C. doi:10.1371/journal.pone.0027439. PMC 3210174. PMID 22087317. The expected changes in phenology will have a substantial effect on the reproduction, distribution and productivity of trees as the coincidence of ecosystem processes, such as flowering and the emergence of pollinators, is disrupted. Some plants may also become less resistant to environmental challenges. For example, shorter and warmer winters can reduce the cold hardening of trees, leaving them vulnerable to frost injury.
  19. ^ Richardson, A.D.; Bailey, A.S.; Denny, E.G.; Martin, C.W.; O'Keefe, J. (2006). "Phenology of a northern hardwood forest canopy". Global Change Biology. 12 (7): 1174–1188. Bibcode:2006GCBio..12.1174R. CiteSeerX 10.1.1.495.6146. doi:10.1111/j.1365-2486.2006.01164.x. S2CID 10717334. ...significant trends (P≤0.05) towards an earlier spring (e.g. sugar maple, rate of change=0.18 days earlier/yr), consistent with other studies documenting measurable climate change effects on the onset of spring in both North America and Europe. Our results also suggest that green canopy duration has increased by about 10 days (e.g. sugar maple, rate of change=0.21 days longer/yr) over the period of study.
  20. ^ a b Linderholm, H.W. (2006). "Growing season changes in the last century" (PDF). Agricultural and Forest Meteorology. 137 (1–2): 1–14. Bibcode:2006AgFM..137....1L. doi:10.1016/j.agrformet.2006.03.006. Archived from the original (PDF) on 20 July 2011. Retrieved 27 June 2009. The evidence points to a lengthening of the growing season of ca. 10–20 days in the last few decades, where an earlier onset of the start is most prominent. This extension of the growing season has been associated with recent global warming.
  21. ^ Smith, Virginia A. (7 April 2007). "Out on a limb: Gardeners excited by the early warmth — call it "season creep" - are experimenting with earlier planting and new varieties". The Philadelphia Inquirer. Retrieved 23 December 2007. ...earlier springs — an idea known as "season creep" — may or may not be related to long-term warming trends. Yet the reality of year-to-year weather weirdness recently, coupled with the ever-present impulse to outsmart Mother Nature, has prompted more than a few gardeners to shun conventional horticultural wisdom.
  22. ^ Williams, Brad (8 April 2007). "Dogwoods to frogs, tulips to snow, Knox shows signs of warming". Knoxville News Sentinel. Retrieved 23 December 2007. Knoxville is now in hardiness Zone 7, a zone where more southern trees and shrubs flourish. The zone shift can be seen all across the northern half of the state. It effectively means plants that once had difficulty growing here are now finding it easier to thrive, said Lisa Stanley, master gardener at Stanley's Greenhouses
  23. ^ Magnuson, J.J.; Robertson, D.M.; Benson, B.J.; Wynne, R.H.; Livingstone, D.M.; Arai, T.; Assel, R.A.; Barry, R.G.; Card, V.; Kuusisto, E.; et al. (2000). "Historical Trends in Lake and River Ice Cover in the Northern Hemisphere". Science. 289 (5485): 1743–1746. Bibcode:2000Sci...289.1743M. doi:10.1126/science.289.5485.1743. PMID 10976066. S2CID 37999241. Freeze and breakup dates of ice on lakes and rivers provide consistent evidence of later freezing and earlier breakup around the Northern Hemisphere from 1846 to 1995. Over these 150 years, changes in freeze dates averaged 5.8 days per 100 years later, and changes in breakup dates averaged 6.5 days per 100 years earlier;
  24. ^ Hodgkins, G.A.; Ii, I.C.J.; Huntington, T.G. (2002). "Historical Changes In Lake Ice-out Dates As Indicators Of Climate Change In New England, 1850--2000" (PDF). International Journal of Climatology. 22 (15): 1819–1827. Bibcode:2002IJCli..22.1819H. doi:10.1002/joc.857. S2CID 129244310. Retrieved 28 December 2007. Various studies have shown that changes over time in spring ice-out dates can be used as indicators of climate change.... Ice-out dates have become significantly earlier in New England since the 1800s
  25. ^ Dybas, Cheryl Lyn (20 March 2006). "Early Spring Disturbing Life on Northern Rivers". The Washington Post. Retrieved 26 December 2007. Research by [USGS hydrologist Glenn] Hodgkins and USGS scientist Robert Dudley also shows changes in early-spring stream flow across eastern North America from Minnesota to Newfoundland. Rivers are gushing with snow- and ice-melt as much as 10 to 15 days sooner than they did 50 to 90 years ago, based on USGS records.
  26. ^ "Early risers". New Scientist. 167 (2241): 21. 3 June 2000. Retrieved 27 December 2007. North America's Great Lakes are reaching their spring high-water levels a month earlier than they did when records began in 1860. Levels normally rise in the spring as snow melts, but regional temperatures have been rising for the past 90 years, and winter ice cover has been shrinking.
  27. ^ Wake, Cameron (4 December 2006). "Climate Change in the Northeast: Past, Present, and Future" (PDF). Climate Change in the Hudson Valley, NY. Archived from the original (PDF) on 7 September 2008. Retrieved 27 December 2007. A particularly interesting lake ice record comes from Lake Champlain where they record the ice in date.... Of more significance is the fact that the ice has not frozen in the area of observation in 16 of the past 30 years.
  28. ^ "Why Less Winter Ice is the Pitts for State". The Detroit Free Press. 3 April 2006. Retrieved 23 December 2007. Grand Traverse Bay ... froze at least seven winters out of every 10; the rate slipped in the 1980s. In the 1990s, the bay froze only three times. So far this decade, once. Observers see that as one more sign of what some call "season creep," or evidence of global warming.
  29. ^ "Report warns of global warming increase". Portsmouth Herald. Retrieved 27 December 2007. ...Jan Pendlebury, executive director of the New Hampshire chapter of the National Environmental Trust, said... 'Global warming is forcing changes to the quintessential indicator that spring has arrived: return of the robin. Recent years have documentation that rather than flying south with other feathered friends, many populations of robins are becoming year-round residents, not only in the southern tier of the state, but as far north as Jackson.'[permanent dead link]
  30. ^ Shifting Distribution of Northern Hemisphere Summer Temperature Anomalies, 1951-2011 on YouTube NASA published on May 17, 2013
  31. ^ "A Science of Signs of Spring; Naturalists Study What Warming Temperatures Would Mean for Plants, Animals". Wall Street Journal. 17 March 2013.
  32. ^ Menzel, A.; Sparks, T.H.; Estrella, N.; Koch, E.; Aasa, A.; Ahas, R.; Alm-kübler, K.; Bissolli, P.; Braslavská, O.; Briede, A.; et al. (2006). "European phenological response to climate change matches the warming pattern". Global Change Biology. 12 (10): 1969–1976. Bibcode:2006GCBio..12.1969M. CiteSeerX 10.1.1.167.960. doi:10.1111/j.1365-2486.2006.01193.x. S2CID 84406339. Our results showed that 78% of all leafing, flowering and fruiting records advanced (30% significantly) and only 3% were significantly delayed, whereas the signal of leaf colouring/fall is ambiguous.
  33. ^ Parmesan, C. (2006). "Ecological and evolutionary responses to recent climate change". Annu. Rev. Ecol. Evol. Syst. 37 (1): 637–69. doi:10.1146/annurev.ecolsys.37.091305.110100. Ecological changes in the phenology and distribution of plants and animals are occurring in all well-studied marine, freshwater, and terrestrial groups. These observed changes are heavily biased in the directions predicted from global warming...
  34. ^ Delbart, N.; Picard, G.; Kergoat, L.; Letoan, T.; Quegan, S.; Dye, D.; Woodward, I.; Fedotova, V. (2007). "Spring phenology in taiga and tundra". American Geophysical Union, Fall Meeting 2007. Bibcode:2007AGUFM.B53D..07D. Archived from the original on 20 December 2012. Retrieved 29 December 2007. The model was applied over the whole low arctic region from 1958 to 2002. In North East Canada and North East Russia, no remarkable trend is found in the timing of green- up, whereas a ten-day advance is recorded in the last few decades in North Alaska and in North West Siberia.
  35. ^ a b Jingyun, Z.; Quansheng, G.; Zhixin, H. (2002). "Impacts of climate warming on plants phenophases in China for the last 40 years" (PDF). Chinese Science Bulletin. 47 (21): 1826–1831. Bibcode:2002ChSBu..47.1826Z. doi:10.1360/02tb9399 (inactive 16 November 2024). Archived from the original (PDF) on 1 September 2004. Retrieved 27 June 2009. There is a statistically meaningful relation between inter-annual changes in the spring phenophase and the spring temperature in China for the last 40 years.... The response of phenophase advance or delay to temperature change is nonlinear.... the rate of the phenophase difference with latitude becomes smaller too.{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
  36. ^ Rauscher, S. A.; Pal, J. S.; Diffenbaugh, N. S.; Benedetti, M. M. (2008). "Future changes in snowmelt-driven runoff timing over the western US" (PDF). Geophysical Research Letters. 35 (16): L16703. Bibcode:2008GeoRL..3516703R. doi:10.1029/2008GL034424.
  37. ^ Westerling, L.; Hidalgo, G.; Cayan, R.; Swetnam, W. (August 2006). "Warming and earlier spring increase western U.S. Forest wildfire activity". Science. 313 (5789): 940–943. Bibcode:2006Sci...313..940W. doi:10.1126/science.1128834. ISSN 0036-8075. PMID 16825536.
  38. ^ Topping , Alexandra (4 June 2007). "'Hoodies', 'size zero', 'man flu', make it into the dictionary". The Guardian. Retrieved 23 December 2007. A preoccupation with environmental issues, a favourite topic of [British Conservative Party leader David] Cameron's, is also reflected in new phrases such as "carbon footprint", "carbon offsetting" and "season creep", used to describe the changing length of the seasons thought to be caused by climate change.
  39. ^ "'Season creep', 'BBQ stopper' appear in dictionary pages". ABC News Online. 4 June 2007. Retrieved 23 December 2007. "Hoodies", "season creep" and "barbecue stopper" are among hundreds of new words and phrases included in an updated version of an English dictionary.
  40. ^ a b "Season creep". Word Spy. Retrieved 23 December 2007. Earliest Citation:... Jonathan Banks, 'Season Creep: How Global Warming Is Already Affecting The World Around Us,' National Environment Trust, March 21, 2006
  41. ^ "What Has Longer Season Brought To Baseball Besides Snow Warnings?". Seattle Post-Intelligencer (Seattle, WA). 23 October 1997. Archived from the original on 16 May 2011. Retrieved 26 December 2007. Call it season creep. First came the shift to 162 games, a change that made it, among other things, impossible to compare Roger Maris' 61 home runs to Babe Ruth's 60.
  42. ^ "Virginian-Pilot Archives". The Virginian-Pilot. Pilot Media. 29 May 2007. Retrieved 26 December 2007. 'Season creep' has expanded the time an intercollegiate athlete must devote to his or her specialty. No sport should be year-round or nearly so.
  43. ^ Sellnow, Greg (7 April 2007). "Greg Sellnow column: I'm just sayin'". Post-Bulletin. Rochester, Minn. Retrieved 26 December 2007. And it is money, of course, that is responsible for campaign season creep. If you don't raise money early -- gobs and gobs of it -- you'll find yourself on the fundraising super highway with roller marks over your body, where your opponent's war chest plowed over you.
  44. ^ Siewers, Alf (25 November 1987). "He's well-suited to enjoying life of Santa". Chicago Sun-Times. Retrieved 26 December 2007. And so does the culture, with a commercializing of himself that Santa deplores even as he has watched the holiday season creep back to Labor Day.