Fari a Amurka

Fari a Amurka
Bayanai
Ƙasa	Tarayyar Amurka

Yankin yamma Amurka da ke kusa da shi musamman yankin kudu maso yamma ya fuskanci fari mai yawa tun kimanin shekara ta 2000. ^[1][2] Da ke ƙasa da ruwan sama na al'ada yana haifar da fari, kuma yana haifar da matsakaicin matsakaicin matsin lamba a kan yankin da abin ya shafa. Canje-canje a cikin hanyar Guguwa ta extratropical, wanda zai iya faruwa a lokacin sauye-sauyen yanayi kamar El Niño-Southern Oscillation, ko ENSO, da Arewacin Atlantic Oscillation. Ana sa ran karuwar yawan fari da tsananin ya zama daya daga cikin tasirin dumamar yanayi.

fari da ke da tasirin tattalin arziki a Tarihin Amurka ya faru a cikin shekarun 1930 da 1940, lokutan da aka sani da shekarun 'Dust Bowl' inda hukumomin agaji da kiwon lafiya suka zama masu yawa kuma bankunan al'umma da yawa sun rufe.^[3] Har ila yau, taron ya haifar da manyan canje-canje a cikin Ayyukan noma da ke jaddada kiyaye ƙasa da kula da albarkatun ruwa, ya yi wahayi zuwa ga ci gaba a cikin ajiyar ruwa da kayan aikin isar da ruwa na Amurka a matsayin wani ɓangare na Sabon Yarjejeniya, kuma ya rinjayi wasu canje-canje na zamantakewa.

Bugu da ƙari, abubuwan da suka faru na La Niña na duniya suna da alaƙa da yanayin bushewa da zafi da kuma kara yawan fari a California da Kudu maso yamma da kuma Kudu maso gabashin Amurka. Masana kimiyya na yanayi sun lura cewa La Niñas sun zama mafi yawa a tsawon lokaci.^[4]

Mai sa ido kan fari na Amurka yana ba da bayanan bayanai na ƙasa don bin diddigin tsawon lokaci da tsananin fari a Amurka. Jami'ar Nebraska-Lincoln ce ta shirya shi tare da taimakon Ma'aikatar Aikin Gona ta Amurka da Hukumar Kula da Yanayi da Yanayi ta Kasa. Matsayinsu na daidaitawa yana bin diddigin fari a kan sikelin tsananin daga "Abnormal Dry" (D0) zuwa "Exceptional" (D4). ^[5]

Hanyoyin samar da hazo sun haɗa da convective, stratiform, ^[6] da ruwan sama na orographic. ^[7] Hanyoyin convective sun haɗa da motsi mai ƙarfi na tsaye wanda zai iya haifar da jujjuyawar yanayi a wannan wuri a cikin sa'a ɗaya kuma ya haifar da hazo mai nauyi, yayin da matakai na stratiform sun haɗa da motsa jiki mai rauni da raguwa mai tsanani a tsawon lokaci. Ana iya raba hazo zuwa kashi uku, dangane da ko ya faɗi a matsayin ruwa mai ruwa, ruwa mai ruwa wanda ke daskarewa a kan hulɗa da farfajiya, ko kankara.

Idan waɗannan abubuwan ba su goyi bayan isasshen hazo don isa farfajiyar tsawon lokaci, sakamakon shine fari. Ana iya haifar da fari ta hanyar hasken rana mai zurfi da kuma sama da matsakaicin yaduwar tsarin matsin lamba, iskõki da ke ɗauke da nahiyar, maimakon iska ta teku, da kuma tuddai na wuraren matsin lamba a sama na iya hana ko ƙuntata ci gaban aikin tsawa ko ruwan sama a kan wani yanki. Da zarar yanki yana cikin fari, hanyoyin ra'ayoyi kamar iska mai bushewa na gida, yanayin zafi wanda zai iya inganta hawan zafi, kuma ƙananan evapotranspiration na iya kara yanayin fari. Lokacin hunturu a lokacin El Niño ya fi zafi kuma ya bushe fiye da matsakaici a Arewa maso Yamma, arewacin Midwest, da arewacin Gabashin Amurka, don haka waɗannan yankuna suna fuskantar raguwar dusar ƙanƙara.

Ayyukan da ke haifar da Canjin yanayi na duniya ana sa ran za su haifar da fari tare da tasiri mai yawa a kan noma ^[8] da karuwar tashin hankali a duk duniya, musamman a Kasashe masu tasowa. ^{[9] [10]} Gabaɗaya, dumamar duniya za ta haifar da karuwar ruwan sama a duniya.^[11] Tare da fari a wasu yankuna, ambaliyar ruwa da rushewa za su karu a wasu. Abin mamaki, wasu hanyoyin da aka ba da shawarar don warming duniya wanda ke mai da hankali kan hanyoyin da suka fi aiki, kula da hasken rana ta hanyar amfani da inuwa ta sararin samaniya ga mutum, na iya ɗaukar tare da su ƙarin damar fari.

1. ↑ Krajick, Kevin (2020-04-16). "Climate-driven megadrought is emerging in western US, study says". phys.org.
2. ↑ Williams, A. Park; et al. (2020-04-17). "Large contribution from anthropogenic warming to an emerging North American megadrought". Science. 368 (6488): 314–318. Bibcode:2020Sci...368..314W. doi:10.1126/science.aaz9600. PMID 32299953. S2CID 215789824.
3. ↑ Egan, Timothy (2005). "Drought: The Dust Bowl". National Drought Mitigation Center, University of Nebraska–Lincoln. Retrieved 2015-08-14.
4. ↑ Seth Borenstein, Associated Press science writer (May 28, 2022). "Weather's unwanted guest: Nasty La Niña keeps popping up". 9news.com. Retrieved June 4, 2022. Scientists are noticing that in the past 25 years the world seems to be getting more La Niñas than it used to…
5. ↑ "U.S. Drought Monitor Classification Scheme". University of Nebraska–Lincoln. Archived from the original on 21 August 2014. Retrieved 22 August 2014.
6. ↑ Anagnostou, Emmanouil N. (2004). "A convective/stratiform precipitation classification algorithm for volume scanning weather radar observations". Meteorological Applications. Cambridge University Press. 11 (4): 291–300. Bibcode:2004MeApp..11..291A. doi:10.1017/S1350482704001409.
7. ↑ Dore, A.J.; Mousavi-Baygi, M.; Smith, R.I.; Hall, J.; Fowler, D.; Choularton, T.W. (June 2006). "A model of annual orographic precipitation and acid deposition and its application to Snowdonia". Atmospheric Environment. 40 (18): 3316–3326. Bibcode:2006AtmEn..40.3316D. doi:10.1016/j.atmosenv.2006.01.043.
8. ↑ Adams, Richard M.; Peck, Dannele E. (2002). "Drought and Climate Change: Implications for the West" (PDF). Western Economics Forum. 1 (2): 1–5. Archived (PDF) from the original on 24 July 2020.
9. ↑ "Record rise in wheat price prompts UN official to warn that surge in food prices may trigger social unrest in developing countries". Finfacts. Retrieved 2015-08-14.
10. ↑ "Nigerian Scholar Links Drought, Climate Change to Conflict in Africa". US Department of State. Archived from the original on 2005-10-28. Retrieved 2015-08-14.
11. ↑ "Is Water the New Oil? | Common Dreams | Breaking News & Views for the Progressive Community". Common Dreams. 2008-11-02. Retrieved 2015-08-14.