Ruwan zafi na birni

Ruwan zafi na birni
atmospheric phenomenon (en)

Wani nau'in zafi na birane yana kwatanta iska mai tashi a cikin ƙananan tsawo na yanayin duniya wanda ya haifar da yankunan birane da ke da zafi fiye da yankunan da ke kewaye. A cikin shekaru talatin da suka gabata an sami karuwar sha'awa ga abin da ake kira Tsibirin zafi na birane (UHI), ^[1] amma tun daga 2007 ne kawai aka ba da tunani ga ginshiƙan iska mai dumi, ko 'fulanin zafi' da suke samarwa. Iska ta yau da kullun a bakin teku a rana mai dumi, kuma iska ta bakin teku da dare tana haifar da yanayin ƙasa da sauri a rana mai haske da sanyaya da sauri bayan faɗuwar rana, bi da bi. Thermals, ko iska mai dumi, wanda ke tashi daga ƙasa da teku yana shafar Yanayin yanayi na microscale na gida; kuma watakila a wasu lokuta mesometeorology. Ruwan zafi na birane suna da iko ko da yake ba su da tasiri. 

London gabaɗaya yana da 3 zuwa 9 Celsius zafi fiye da Ƙungiyoyin Gida . Luku Howard, FRS ya fara nazarin aberrations na meteorological na London a cikin 1810s, ^[2] amma ra'ayin cewa wannan babban yanki mai dumi zai samar da mahimmancin zafin jiki na birni ba a ba da shawara sosai ba sai kwanan nan.

Microscale thermal fuka-fuki, wanda za'a iya auna diamita a cikin dubban mita, kamar waɗanda aka samar da su ta hanyar masana'antu, an bincika su sosai, amma galibi daga ra'ayi na warwatsewar fuka-fuka ta hanyar micrometeorology na gida.^[3] Kodayake saurin su gabaɗaya ƙasa ne, girman su mafi girma (diamita) yana nufin cewa fuka-fukan zafi na birane za su sami tasiri sosai a kan mesometeorology har ma da macrometeorological na nahiyar.^[4]

Rage kankara na teku na Arctic yana daya daga cikin bayyanar canjin yanayi, sau da yawa yana da alaƙa da hauhawar yanayin zafi na duniya. Koyaya, akwai rahotanni da yawa cewa raguwar kankara na polar ya fi dacewa da canje-canje a cikin yanayin iska fiye da karuwar yanayin zafi na muhalli.^[5]

A cikin 2006-07, ƙungiyar da Son Nghiem na NASA Jet Propulsion Laboratory, Pasadena, California, ya yi nazarin abubuwan da ke faruwa a cikin kankara na Arctic ta hanyar haɗa bayanai daga tauraron dan adam na NASA na QuikSCAT, wanda zai iya ganowa da kuma tsara nau'o'i daban-daban na kankara na teku, gami da tsofaffi, kankara mai kauri da ƙarami, kankara na yanayi. Masana kimiyya sun lura cewa Tekun Arctic ya mamaye ta da kankara na yanayi wanda ke narkewa da sauri. Wannan kankara yana da sauƙin matsawa kuma yana amsawa da sauri ga fitar da shi daga Arctic ta iska. Wadannan yanayin kankara na yanayi sun sauƙaƙa asarar kankara, wanda ya haifar da wannan rikodin 2007 na jimlar kankara na Arctic. Nghiem ya kammala cewa saurin raguwa a cikin kankara na hunturu a cikin shekaru biyu da suka gabata ya haifar da tsarin iska mai ban mamaki wanda ya matse kankara ta teku, ya ɗora shi cikin Transpolar Drift Stream sannan ya hanzarta kwarara daga Arctic, inda ya narke cikin Ruwa mai zurfi a ƙananan latitudes.^[5]

An bayar da rahoton cewa a cikin yanayi mai zurfi musayar giciye yana faruwa sama da iyakar duniya lokacin da akwai motsi na tsaye na muhimmiyar lokaci. Duk da yake ya fahimci cewa raguwar motsi na tsaye zuwa gefen fuka-fukan zafi na birane zai sami sakamako mai kyau, Rail ya ba da shawarar cewa irin waɗannan fuka-fuka na zafi na birni suna taka muhimmiyar rawa wajen samar da canje-canje a cikin yanayin iska a kan Arctic kuma suna da tasiri kai tsaye akan raguwar Arctic. Tasirin fuka-fukan zafi na birane zai bambanta dangane da dalilai daban-daban ciki har da diamita da yanayin zafin jiki na tsibirin zafi na Urban, latitude, kwanciyar hankali na zafi na stratiform, da iska mai haɗari. Don haka, alal misali, fuka-fukan zafi na birane za su sami tasiri mafi girma a mafi girman latitudes (sama da 40 ° N da sama da 40 ° S), inda tsarin sararin samaniya na Duniya ke fuskantar sanyaya ta hanyar radiation.^[6]

• Rashin dumamar yanayi

1. ↑ Hsu Sheng-I (1981). "The urban heat island effect : a case study of metropolitan Phoenix area". Occasional paper. 21. Department of Geography, Chinese University of Hong Kong. OCLC 31166305. Cite journal requires |journal= (help)
2. ↑ Empty citation (help)
3. ↑ Belghith, A.; Mahmoud, A. O. M.; Zinoubi, J.; Ben MaadMahmoud, R. (2006). "Improvement of the Vertical Dispersion of Pollutants Resulting From Chimneys by Thermosiphon Effect". American Journal of Environmental Sciences. 2 (2): 66–73. doi:10.3844/ajessp.2006.66.73.
4. ↑ Masson, V. (2006). "Urban surface modeling and the meso-scale impact of cities". Theoretical and Applied Climatology. 84 (1–3): 35–5. Bibcode:2006ThApC..84...35M. doi:10.1007/s00704-005-0142-3. S2CID 53963137.
5. ↑ ^{5.0 5.1} "NASA - NASA Examines Arctic Sea Ice Changes Leading to Record Low In 2007". NASA News Release. 1 October 2007. Archived from the original on 1 March 2021. Retrieved 11 August 2025.
6. ↑ Walsh, John E; Chapman, William L.; Romanovsky, Vladimir; Christensen, Jens H.; Stendel, Martin (2008). "Global Climate Model Performance over Alaska and Greenland". J. Climate. 21 (23): 6156–74. Bibcode:2008JCli...21.6156W. doi:10.1175/2008JCLI2163.1.