Abstract
As urbanization increases, designing green space that offers ecological benefits is an increasingly important goal of urban planning. As a linear green space in an urban environment, green belts lower air temperature, increase relative humidity, and improve air quality. To quantify the ecological effects of urban green belts and to identify a critical width for effective urban green belts, we analysed the width of urban green belts in terms of their effects on air temperature (T), relative humidity (RH), concentration of negative air ions (NAI) and bacteria rate (BR). The air T, RH and NAI from 8:00 to 18:00 and BR at 9:00 over seven days were investigated on six widths of green belts (0–10 m, 10–20 m, 20–30 m, 30–40 m, 40–50 m and over 50 m) along the west Fourth Ring Road of Beijing in April, July, October and December 2009. We found that (1) the T-RH benefits increased with the width of the green belts, and the 6 m belt had the smallest effect on T-RH, followed by the 16 m and 27 m belts, whereas the effect was obvious with the 34 m belt and conspicuous and stable with the 42 m belt (approximately 80% green coverage) (P < 0.05); (2) the critical width reference value of urban green belts for an obvious effect on the increase in NAI concentration was approximately 42 m (approximately 80% green coverage) (P < 0.05) and the NAI concentration increased with the width of green belts even in July; and (3) the positive effect on the decrease in the BR was greater than the negative effect, the BR decreased with the green belt width and the changes in the brs were stable with the 34 m belt. The results of this study may help urban planners and designers achieve urban green space designs that optimize ecological effects and cultural benefits.
Highlights
430070 Wuhan Hubei Province, China 1, 7InstitutebHofeiMlonoglejicaunlgarBaaynidACgreilcluBltiuorlaolgUy,nFivaecrusilttyy, Nofo.S5c,ieXnincefenagndRoTaedc,hLnoonloggfeyn, gUDniivsterriscitt,y of Tartu, 1, 2, 4Institute of Ecology and 1E6a3r3th1293SDcRiaeiqinaicnesgst,rH.,Fe5ail1cou0nl1gt0jyiaTonfagrSPtucri,oevEnicnsetcoean, niCadhiTneachnology, University of Tartu, cSchool of Architecture4,6TVsiannghemuauiUsenisvterr.,sit5y1,0H1a4idTiaanrtuD,isEtrsitcotn, i1a00084 Beijing, China 3, 8Institute of MicrobiSoulbomgyitatendd1B6ioJutel.c2h0n1o5lo; gayc,ceUpnteidve2rs3itMy aoyf 2L0a1t6via, 4 Kronvalda blvd., LV-1586 Riga, Latvia Agobasltroafcutr.4b,Aa5sn, 6uIprnlbasantnintiizunatgtei.oAonfsinaFcolrioneadesaerSsg,ardfeeeetsnyig,snpAinancgeimgirnaeelannHsuperaabclatenhtheanantvdiorfofEenrnmsveeirncoot,nlogmgrieecenanlt bb(eeBnltesIfOliotsRwie)sr,aan3iriLntecemrjeuappseiernsagtulsytrrei.m,ipnocrretaanset relative humidity, and improve air quality
The concentration of negative air ions and bacteria rates are important indices for evaluating air quality (Tikhonov et al 2004) and play an important role in improving environmental indicators, but related research has mainly focused on forest vegetation communities (Liang et al 2014)
We investigated the effects of green belts on temperature (T), relative humidity (RH), and the concentration of negative air ions (NAI) and bacteria (BR) using individual measurements
Summary
430070 Wuhan Hubei Province, China 1, 7InstitutebHofeiMlonoglejicaunlgarBaaynidACgreilcluBltiuorlaolgUy,nFivaecrusilttyy, Nofo.S5c,ieXnincefenagndRoTaedc,hLnoonloggfeyn, gUDniivsterriscitt,y of Tartu, 1, 2, 4Institute of Ecology and 1E6a3r3th1293SDcRiaeiqinaicnesgst,rH.,Fe5ail1cou0nl1gt0jyiaTonfagrSPtucri,oevEnicnsetcoean, niCadhiTneachnology, University of Tartu, cSchool of Architecture4,6TVsiannghemuauiUsenisvterr.,sit5y1,0H1a4idTiaanrtuD,isEtrsitcotn, i1a00084 Beijing, China 3, 8Institute of MicrobiSoulbomgyitatendd1B6ioJutel.c2h0n1o5lo; gayc,ceUpnteidve2rs3itMy aoyf 2L0a1t6via, 4 Kronvalda blvd., LV-1586 Riga, Latvia Agobasltroafcutr.4b,Aa5sn, 6uIprnlbasantnintiizunatgtei.oAonfsinaFcolrioneadesaerSsg,ardfeeeetsnyig,snpAinancgeimgirnaeelannHsuperaabclatenhtheanantvdiorfofEenrnmsveeirncoot,nlogmgrieecenanlt bb(eeBnltesIfOliotsRwie)sr,aan3iriLntecemrjeuappseiernsagtulsytrrei.m,,ipnocrretaanset relative humidity, and improve air quality. ToLqVua-1nt0i7fy6thReigeaco, lLogaitcvailaeffects of urban green belts and to identify a critical width for effective urbaSnugbremenittbeedlts, wMe aanr.al2ys0e1d2t;haecwceidptthedof 1u4rbAanuggr.e2en01b2elts in terms of their effects on air temperature (T), relative humidity (RH), concentration of negative air ions (NAI) and bacteria rate (BR). Zhu et al Effects of urban green belts on the air temperature, humidity and air quality. The concentration of negative air ions and bacteria rates are important indices for evaluating air quality (Tikhonov et al 2004) and play an important role in improving environmental indicators, but related research has mainly focused on forest vegetation communities (Liang et al 2014). We investigated the effects of green belts on temperature (T), relative humidity (RH), and the concentration of negative air ions (NAI) and bacteria (BR) using individual measurements
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