绿色建筑绿化体系研究
|
摘要
18世纪以来,人们曾一度以工业化发展程度作为衡量经济强国的标准,即“把追求GDP的增加看作是建设经济强国的唯一目标与动力,以牺牲环境、破坏资源、危及后代生存为代价,达到经济高速发展”。这种传统的发展观,导致了全球性的环境和能源等危机,使得人类不得不重新审视自己的生活方式。在这种背景下,绿色建筑受到人们的关注。“为人类提供一个健康、舒适的活动空间,同时最高效率的利用资源,最低限度地影响环境的建筑物”是目前国际上比较认可的绿色建筑的定义。它是可持续发展战略在建筑设计领域内的具体运用和实践。具有节能、健康舒适和与自然融合三大特点的绿色建筑已在世界各地的各种类型的建筑中尝试和实施,在国内上海、重庆、北京等大城市也有一些成功应用的实例。但是目前国内系统的对绿化对绿色建筑环境的影响的研究较少,还没有专门针对绿色建筑绿化体系的研究,不能满足目前绿色建筑绿化发展的需求。上海市在2004年建成了绿色生态建筑示范楼,同时建有绿化示范区。本文以上海市为例,采用实测、专家咨询和植物资源信息库中提取资料相结合的方法,对绿色建筑绿化体系进行了研究,结果如下:
(1)室外绿化植物群落的植物种类、层次结构不同对绿色建筑的室外环境影响不同,一般层次结构丰富,乔、灌、草盖度大的植物群落的生态功能发挥的较好,层次结构简单的草坪的生态效益较差,因此在绿化过程中如无特殊要求应尽量以乔、灌、草复层结构为主,而且在不同功能要求的地段应选择相应的功能性群落。
(2)室内绿化能使室内CO_2浓度平均降低8.1%、室内飘尘含量PM10平均降低61.6%,但对室内温湿度影响不大,在绿色建筑中应充分利用室内空间进行绿化。
(3)屋顶绿化夏季可使屋顶外表面平均降低24.6℃,内表面平均降低5.4℃,冬季可使屋顶内外表面平均升高3℃左右。同时可使屋顶外表面空气相对湿度平均提高12.5%,有利于建筑的节能和健康舒适环境的营造。
(4)距垂直绿化墙面0.2m的空气湿度平均比裸墙同距离高1%-1.9%,距墙0m空气湿度平均比裸墙同距离高6.7%-9.2%;距墙面0.2m温度平均比裸墙同距离低0.4℃-0.9℃,距墙0m温度平均比裸墙同距离低5.3℃-6.6℃;不同垂直绿化材料之间降温增湿能力相差不大;垂直绿化对室内温度影响效果上午不显著下午较明显。
(5)利用层次分析法建立了绿色建筑绿化的评价指标体系和评价模型。
(6)通过专家咨询得出了绿色建筑绿化评价体系的各级指标权重,其中生态功能和景观功能权重系数相差不大,说明人们对绿化植物生态效益的重视程度已达到了和景观效果相同的高度。
(7)对上海生态办公示范楼和甘泉苑住宅小区绿化体系进行了评价,结果表明示范楼整体绿化体系评价分值为7.0属于高等级绿化体系,是适合绿色建筑的高质量绿化体系,但垂直绿化亟待加强和改善;甘泉苑住宅小区绿化体系评价分值为5.0属于一般等级绿化体系,无屋顶绿化,垂直绿化也急需加强和改善。
(8)推荐了部分适合上海市绿色建筑绿化的植物种和一些功能性植物群落。
建筑绿化的效益与绿色建筑的主题相一致,应充分利用建筑空间进行绿化。在建筑绿化时应根据不同的要求选择不同的植物,同时可以利用评价体系对建筑绿化效果进行评价,判断绿化的优劣并提出相应的改进建议。
People regarded the increase of GDP as only goal of building up the economic powerful country since 18th century. And this caused environment and resources of the earth to be destroyed. The mankind have to scrutinize their life style. The green construction is attention by people, in this background. It is the application of the "Sustainable development" in architecture. The green construction is being attemptted and implemented in many place of the word. There are successful applications in some big city of China, such as Beijing, Shanghai, Chongqing and so on. But the research about influence of afforestation to the green construction is not enough. And there are not special research to the afforestation of green construction yet. This obviously cannot satisfy with the demand of afforestation development of green construction in China, at present. A ecology demonstration building and afforestation had been built up at Shanghai in 2004. So we take Shanghai as an example to study the afforestation system of the green construction.
From the paper we draw some conclusion as follows:
(1) Different flora of outdoors afforestation have different effect to the green construction. The plant community have more ecology benefit which structure is more complex. We should choose the corresponding community in the different function request.
(2) The room afforestation can make CO_2 density of room reduce by 8.1% and the room dust PM10 reduce by 61.6%, equally, but temperature decrease and humidity increase ability are not remarkable. Room should be fully utilize to afforestation.
(3) Roof afforestation can equally make the outer surface of roof reduce by 24.6℃and the interior surface reduces by 5.4℃in summer, and can make roof internal and external surface rise about 3℃in winter. And it can also equally make roof outer surface air humidity raise by 12.5%. It is favorable to the energy-conserving of construction and the set up of the healthy and comfortable environment
(4) The construction vertical greening can obviously improve the microclimate around the construction wall, and can reduce the construction indoor temperature effectively in the afternoon, but not prominent in the morning.
(5) A appraisal system of green construction afforestation is set up which can evaluate the afforestation system of construction.
(6) Weight coefficient of appraisal system is obtained. Ecology function and the landscape function weight coefficient are consistent, It indicates that people have the same attitude toward plant ecology benefit and plant landscape benefit.
(7) We use appraisal system to evaluate the afforestation system of Shanghai ecology demonstration office building and Ganquan updown. It indicates that the demonstration office afforestation system belongs to the high-grade and Ganquan updown afforestation system belongs to the generic-grade afforestation system.
(8) We recommend a lot of plant which suit to green construction afforestation in Shanghai and some plant community of outdoors afforestation.
The building afforestation is conform with theme of the green construction. So we should utilize space of building to afforestation fully. Different plant and community should be chose basis on the different demand. Appraisal system can be used to judge the quality of afforestation and put the improvable suggestion.
(1)室外绿化植物群落的植物种类、层次结构不同对绿色建筑的室外环境影响不同,一般层次结构丰富,乔、灌、草盖度大的植物群落的生态功能发挥的较好,层次结构简单的草坪的生态效益较差,因此在绿化过程中如无特殊要求应尽量以乔、灌、草复层结构为主,而且在不同功能要求的地段应选择相应的功能性群落。
(2)室内绿化能使室内CO_2浓度平均降低8.1%、室内飘尘含量PM10平均降低61.6%,但对室内温湿度影响不大,在绿色建筑中应充分利用室内空间进行绿化。
(3)屋顶绿化夏季可使屋顶外表面平均降低24.6℃,内表面平均降低5.4℃,冬季可使屋顶内外表面平均升高3℃左右。同时可使屋顶外表面空气相对湿度平均提高12.5%,有利于建筑的节能和健康舒适环境的营造。
(4)距垂直绿化墙面0.2m的空气湿度平均比裸墙同距离高1%-1.9%,距墙0m空气湿度平均比裸墙同距离高6.7%-9.2%;距墙面0.2m温度平均比裸墙同距离低0.4℃-0.9℃,距墙0m温度平均比裸墙同距离低5.3℃-6.6℃;不同垂直绿化材料之间降温增湿能力相差不大;垂直绿化对室内温度影响效果上午不显著下午较明显。
(5)利用层次分析法建立了绿色建筑绿化的评价指标体系和评价模型。
(6)通过专家咨询得出了绿色建筑绿化评价体系的各级指标权重,其中生态功能和景观功能权重系数相差不大,说明人们对绿化植物生态效益的重视程度已达到了和景观效果相同的高度。
(7)对上海生态办公示范楼和甘泉苑住宅小区绿化体系进行了评价,结果表明示范楼整体绿化体系评价分值为7.0属于高等级绿化体系,是适合绿色建筑的高质量绿化体系,但垂直绿化亟待加强和改善;甘泉苑住宅小区绿化体系评价分值为5.0属于一般等级绿化体系,无屋顶绿化,垂直绿化也急需加强和改善。
(8)推荐了部分适合上海市绿色建筑绿化的植物种和一些功能性植物群落。
建筑绿化的效益与绿色建筑的主题相一致,应充分利用建筑空间进行绿化。在建筑绿化时应根据不同的要求选择不同的植物,同时可以利用评价体系对建筑绿化效果进行评价,判断绿化的优劣并提出相应的改进建议。
People regarded the increase of GDP as only goal of building up the economic powerful country since 18th century. And this caused environment and resources of the earth to be destroyed. The mankind have to scrutinize their life style. The green construction is attention by people, in this background. It is the application of the "Sustainable development" in architecture. The green construction is being attemptted and implemented in many place of the word. There are successful applications in some big city of China, such as Beijing, Shanghai, Chongqing and so on. But the research about influence of afforestation to the green construction is not enough. And there are not special research to the afforestation of green construction yet. This obviously cannot satisfy with the demand of afforestation development of green construction in China, at present. A ecology demonstration building and afforestation had been built up at Shanghai in 2004. So we take Shanghai as an example to study the afforestation system of the green construction.
From the paper we draw some conclusion as follows:
(1) Different flora of outdoors afforestation have different effect to the green construction. The plant community have more ecology benefit which structure is more complex. We should choose the corresponding community in the different function request.
(2) The room afforestation can make CO_2 density of room reduce by 8.1% and the room dust PM10 reduce by 61.6%, equally, but temperature decrease and humidity increase ability are not remarkable. Room should be fully utilize to afforestation.
(3) Roof afforestation can equally make the outer surface of roof reduce by 24.6℃and the interior surface reduces by 5.4℃in summer, and can make roof internal and external surface rise about 3℃in winter. And it can also equally make roof outer surface air humidity raise by 12.5%. It is favorable to the energy-conserving of construction and the set up of the healthy and comfortable environment
(4) The construction vertical greening can obviously improve the microclimate around the construction wall, and can reduce the construction indoor temperature effectively in the afternoon, but not prominent in the morning.
(5) A appraisal system of green construction afforestation is set up which can evaluate the afforestation system of construction.
(6) Weight coefficient of appraisal system is obtained. Ecology function and the landscape function weight coefficient are consistent, It indicates that people have the same attitude toward plant ecology benefit and plant landscape benefit.
(7) We use appraisal system to evaluate the afforestation system of Shanghai ecology demonstration office building and Ganquan updown. It indicates that the demonstration office afforestation system belongs to the high-grade and Ganquan updown afforestation system belongs to the generic-grade afforestation system.
(8) We recommend a lot of plant which suit to green construction afforestation in Shanghai and some plant community of outdoors afforestation.
The building afforestation is conform with theme of the green construction. So we should utilize space of building to afforestation fully. Different plant and community should be chose basis on the different demand. Appraisal system can be used to judge the quality of afforestation and put the improvable suggestion.
引文
1.柴一新,祝宁,韩焕金.城市绿化树种的滞尘效应—以哈尔滨市为例.应用生态学报,2002,13(9):1121-1126
2.陈芳,周志翔,郭尔祥,叶贞清.城市工业区园林绿地滞尘效应的研究—以武汉钢铁公司厂区绿地为例.生态学杂志,2006,25(1):34-38
3.陈辉,阮宏华,叶镜中.鹅掌楸和女贞同化CO_2和释O_2能力的比较.城市环境与城市生态,2002,15(6):17-18
4.陈玮,何兴元,张粤.东北地区城市针叶树冬季滞尘效应研究.应用生态学报,2003,14(12):2113-2116
5.陈自新,苏雪痕,刘少宗,张新献.北京城市园林绿化生态效益的研究(2).中国园林,1998a,14(3):53-56
6.陈自新,苏雪痕,刘少宗,张新献.北京城市园林绿化生态效益的研究(3).中国园林,1998b,14(4):53-56
7.程明昆.城市绿化的声衰减.绿化环境效应研究.北京:中国环境科学出版社,1992
8.董希文,崔强,王丽敏.园林绿化树种枝叶滞尘效果分类研究.防护林科技,2005,64(1):28-30
9.杜克勤,刘步军,吴昊.不同绿化树种温湿度效应的研究.农业环境保护,1997,16(6):266-268
10.范丕湘.成都市居住区绿化效益研究.[硕士学位论文].成都:四川农业大学,2003
11.范少辉,洪志猛,叶功富.沿海城市惠安县城市森林评价指标体系研究.林业科学研究,2005,18(1):86-90
12.范亚民,何平,李建龙,沈守云.城市不同植被配置类型空气负离子效应评价.生态学杂志,2005,24(8):883-886
13.冯采芹.绿化在城市碳氧平衡中的作用.绿化环境效应研究.北京:中国环境科学出版社,1992
14.冯采芹.有关树木净化SO_2的几个问题.环境科学,1981,3(4):33-107
15.韩素梅.沈阳地区主要树木净化SO_2潜力的研究.辽宁大学学报,2001,28(2):174-179
16.花晓梅.树木杀菌作用研究初报绿化环境效应研究.绿化环境效应研究.北京:中国环境科学出版社,1992
17.黄晨,建筑环境学.北京:机械工业出版社,2005
18.黄静.城市绿地系统发展新潮流—规划指标理性化.南京农专学报,2003,19(3):22-26
19.黄晓鸾,张国强,贾建中.城市生存环境绿色量值群的研究6—城市生存环境绿色量值群.中国园林,1998,14(6):57-60
20.黄卫昌,秦俊,胡永红,赵玉婷.屋顶绿化植物的选择—景天类植物在上海市的应用,安徽农业科学,2005,33(6):1041-1043
21.胡海红,戴修道,李莉,张连全.室内绿化净化功能的研究.上海建设科技,1996(6):37-38
22.胡聘.城市绿地综合效益评价方法探讨—天津实例应用.城市环境与城市生态,1994,7(1):18-22
23.康博文,刘建军,王得祥.陕西20种主要绿化树种滞尘能力的研究.陕西林业科技,2003,(4):54-56
24.李海清,“绿色建筑”之表皮—试图将瑞士经验运用于南京地区的个案研究与方法.城市建筑,2005,(10):24-27
25.李辉,赵卫智,古润泽,李延明,陈自新,张新献.居住区不同类型绿地释氧固碳及降温增湿作用.环境科学,1999,20(11):41-44
26.林忠宁.空气负离子在卫生保健中的作用.生态科学,1999,18(2):87-90
27.刘昕,孙铭,朱俊,董巍,王祥荣.上海城市森林评价指标体系.复旦学报(自然科学版),2004,43(6):988-994
28.刘滨谊,姜允芳.中国城市绿地系统规划评价指标体系研究.城市规划汇刊,2002,(2):27-29
29.刘福才.城市绿地环境效益的研究.中国园林,1986,2(2):10-11
30.刘光立,陈其兵.成都市四种垂直绿化植物生态学效应研究.西华师范大学学报(自然科学版),2004a,25(3):259-262
31.刘光立,陈其兵.四种垂直绿化植物杀菌滞尘效应的研究,四川林业科技,2004b,25(3):53-55
32.刘光立,陈其兵.四种垂直绿化植物吸污效应研究.西南园艺,2004c,32(4):1-2
33.刘光立.垂直绿化及其生态效益研究.[硕士论文].成都:四川农业大学,2002
34.刘厚田.太原地区某些植物净化SO_2潜力的研究.植物生态学与地植物学学报,1988,12(3):216-221
35.刘骏,蒲蔚然.小议城市绿地指标.重庆建筑大学学报,2001,2(4):33-108
36.刘凯昌,苏树权,江建发,许文安.不同植被类型空气负离子状况初步调查.广东林业科技,2002,18(2):37-39
37.刘凯昌,许文安.珠海市空气负离子水平初步调查.广东林勘设计,1996,(2):11-15
38.刘煜,Deo Prasad.当代绿色生态建筑评价方式综述.工程设计CAD与智能建筑,2002,(4):44-47
39.鲁敏.北方吸污绿化树种选择.中国园林,2002,(3):86-88
40.陆佳,王祥荣.上海浦东外高桥保税区生态绿地系统评价与规划.中国园林,1998,14(3):10-13
41.陆旭蕾,刘艳,粟志峰,张凤云.城市绿地对减弱环境噪声作用的探讨.石河子科技,2003,(5):17-18
42.罗充,理燕霞,张伟,周训怀,彭惠蓉.19种园林植物组织杀菌作用的研究.安徽农业科学,2005,33(5):810-811
43.罗红艳,李吉跃,刘增.绿化树种对大气SO_2的净化作用.北京林业大学学报,2000,22(1):43-119
44.绿色奥运建筑研究课题组.绿色奥运建筑评估体系.北京:中国建筑工业出版社,2003
45.马瑞桐.合理室内绿化降低飘尘量.中国产经新闻报,2005,12(10):A10
46.马栓.软质景观—园林植物的作用.山西建筑,2002,28(11):142-143
47.马晓龙,贾媛媛,赵荣.城市绿地系统效益评价模型的构建与应用.城市环境与城市生态,2003,16(5):28-30
48.倪涌舟.室内绿化装饰对低频噪声烦恼度的影响.浙江林学院学报,2006,23(1):112-114
49.秦俊,傅徽楠,杨林.室内绿化对建筑综合症的缓解作用.福建林学院学报,2002,22(4):308-311
50.孙儒泳,李博,诸葛阳,尚玉昌.普通生态学.北京:高等教育出版社,1993
51.唐斌,韩冬青.城市建筑复合绿化方法研究.东南大学学报(自然科学版),2005,(35):196-200
52.唐东芹,杨学军,许东新.园林植物景观评价方法及其应用.浙江林学院学报,2001,18(4):394-397
53.陶久阳,袁忠利,张凤歧,田桂英.植物对大气SO_2积累特点与净化能力的研究.辽宁林业科技,1998,(3):29-33
54.田玉军,巨天珍,冯克宽.兰州市功能区大气细菌污染和城市绿地系统杀菌效应分析.中国环境监测,2003,19(3):43-117
55.王彩霞,何平,王保忠.株洲市道路植物景观的数量化分析.中南林学院学报,2004,24(2):100-103,110
56.王洪俊.城市森林结构对空气负离子水平的影响.南京林业大学学报(自然科学版),2004,28(5):96-98
57.王菁黎,罗菊春.风景林植物群落质量的综合评价.福建林学院学报,2004,24(4):379-384
58.王月菡.基于生态功能的城市森林绿地规划控制性指标研究—以南京市为例.[硕士学位论文].南京:南京林业大学,2004
59.王赞红,李纪标.城市街道常绿灌木植物叶片滞尘能力及滞尘颗粒物形态.生态环境,2006,15(2):327-330
60.魏斌,王景旭,张涛.城市绿地生态效果评价方法的改进.城市环境与城市生态,1997,10(4):54-56
61.吴楚材,钟林生,刘晓明.马尾松纯林林分因子对空气负离子浓度影响的研究.中南林学院学报,1998,18(1):70-73
62.吴际友,程政红,龙应忠,童方平,宋庆安,刘云国.园林树种林分中空气负离子水平的变化.南京林业大学学报(自然科学版),2003,27(4):78-80
63.武勇.植物造景在现代城市景观设计中的应用.山西科技,2005,(5):93-94
64.肖荣波,周志翔,王鹏程,叶贞清,郭尔祥,冀广超.武钢工业区绿地景观格局分析及综合评价.生态学报,2004,24(9):1924-1930
65.许萍,车伍,李俊奇.屋顶绿化改善城市环境效果分析.环境保护,2004,(7):41-44
66.徐燕,谢东营.乌鲁木齐城市绿地系统景观生态综合评价.干旱区资源与环境,2003,17(5):22-25
67.徐业林,俞家玲.鹞落坪自然保护区环境中空气离子状况分析.中国卫生工程学,2006,5(2):63-137
68.严铃璋.可持续发展与城市绿化.中国园林,2003.(4):44-47
69.严晓,王希华,刘丽正,谢远程.城市绿地系统生态效益评价指标体系初报.浙江林业科技,2003,22(2):68-72
70.阳柏苏,何平,范亚明.城郊绿地系统结构与负离子发生的生态分析.怀化学院学报,2003,22(5):64-67
71.杨士弘.城市绿化树木的降温增湿效应研究.地理研究,1994,13(4):74-80
72.杨士弘.城市绿化树木碳氧平衡效应研究.城市环境与城市生态,1996,9(1):37-39
73.姚成,许志鸿.沪杭高速公路上海段降噪绿化带的设计和应用.华东公路,1999,(5):70-72
74.余世金.城市住区绿化生态性评价方法.华侨大学学报(自然科学版),2005,26(1):106-109
75.俞孔坚,段铁武,李迪华,彭晋福.景观可达性作为衡量城市绿地系统功能指标的评价方法与案例.城市规划,1999,(23):8-11,43
76.张德强,褚国伟,余清发,刘世忠,陆耀东,胡羡聪,薛克娜,孔国辉.园林绿化植物对大气二氧化硫和氟化物污染的净化能力及修复功能.热带亚热带植物学报,2003,11(3):336-340
77.张华,宋宗强,郭镭.城市园林绿化定量评价方法研究.广东园林,2004,(1):36-40
78.张璐,张尚武.浅谈城市屋顶绿化的功能和意义.城市减灾,2006,(1):32-35
79.张明丽,胡永红,秦俊.城市植物群落的减噪效果分析.植物资源与环境学报,2006,15(2):23-98
80.张庆费,庞名瑜,姜义华,胡岗.上海主要绿化树种的抑菌物质和芳香成分分析.植物资源与环境学报,2000,9(2):62-64
81.张新献,古润泽,陈自新,李延明,韩丽莉,李辉.北京城市居住区绿地的滞尘效益.北京林业大学学报,1997a,19(4):12-17
82.张新献,古润泽,李延明,李辉.居住区绿地对其空气中细菌含量的影响.中国园林,1997b,13(2):57-58
83.张秀梅,李景平.城市污染环境中适生树种滞尘能力研究.环境科学动态,2001,(2):27-30
84.赵定国,薛伟成.轻型屋顶绿化的降温效果.上海农业学报,2006,22(1):53-55
85.赵勇,李树人,阎志平.城市绿地的滞尘效应及评价方法.华中农业大学学报,2002,21(6):582-586
86.仲平.建筑生命周期能源消耗及其环境影响研究.[硕士论文].成都:四川大学,2005
87.周志翔,邵天一,王鹏程,高翅,徐永荣,郭尔祥,徐隆辉,叶贞清,彭行梅,于春杰.武钢厂区绿地景观类型空间结构及滞尘效应.生态学报,2002,22(12):2036-2040
88.祝宁,李敏,柴一新.哈尔滨市绿地系统生态功能分析.应用生态学报,2002,13(9):1117-1120
89. Ayaz M. Traffic noise abatement through tree and shrub vegetation. Paskistan Journal of Forestry, 1999, 48(1/4): 1-11
90. Dana E D, Vivas S, Mota J F. Urban vegetation of America City: a contribution to urban ecology in Spain Lands. Urban Plan, 2002, (59):203-216
91. Germann-Chiari C, Seeland K. Are urban green spaces optimally distributed to act as social integration? Results of a geographical information system(GIS) approach for urban forestry research. Forest Policy and Economics, 2004, (6):3-13
92. Hunter I R. What do people want from urban forestry?-The European experience. Urban Ecosystems, 2003, (5):277-284
93. Jim C Y. The urban forestry programme in the heavily built-up milieu of Hong Kong. Cities, 2000, 17(4):271-283
94. Konijnendijk C C. A decade of urban forestry in Europe. Forest Policy and Economics, 2003, (5):173-186
95. Konijnendijk C C. Adapting forestry to urban demands-role of communication in urban forestry in Europe. Landscape and Urban Planning, 2000, (52):89-100
96. Profous G V, Rowntree R A, Loeb R E. Theurban forest landscape of Athens, Greece:aspects of structure, planning and management. Arboricultural Journal, 1988, (12):83-107
97. Profous G V, Rowntree R A. The structure and management of the urban forest in Prague, Czechoslovakia. Arboriculture Journal, 1993, (17): 1-13
98. Young D R. Diffrerences in leaf structure, chlorophyll and nutrients for the understroy tree Asminatriloba. Amer. J. Bot, 1987, 74(10):1487-1491
2.陈芳,周志翔,郭尔祥,叶贞清.城市工业区园林绿地滞尘效应的研究—以武汉钢铁公司厂区绿地为例.生态学杂志,2006,25(1):34-38
3.陈辉,阮宏华,叶镜中.鹅掌楸和女贞同化CO_2和释O_2能力的比较.城市环境与城市生态,2002,15(6):17-18
4.陈玮,何兴元,张粤.东北地区城市针叶树冬季滞尘效应研究.应用生态学报,2003,14(12):2113-2116
5.陈自新,苏雪痕,刘少宗,张新献.北京城市园林绿化生态效益的研究(2).中国园林,1998a,14(3):53-56
6.陈自新,苏雪痕,刘少宗,张新献.北京城市园林绿化生态效益的研究(3).中国园林,1998b,14(4):53-56
7.程明昆.城市绿化的声衰减.绿化环境效应研究.北京:中国环境科学出版社,1992
8.董希文,崔强,王丽敏.园林绿化树种枝叶滞尘效果分类研究.防护林科技,2005,64(1):28-30
9.杜克勤,刘步军,吴昊.不同绿化树种温湿度效应的研究.农业环境保护,1997,16(6):266-268
10.范丕湘.成都市居住区绿化效益研究.[硕士学位论文].成都:四川农业大学,2003
11.范少辉,洪志猛,叶功富.沿海城市惠安县城市森林评价指标体系研究.林业科学研究,2005,18(1):86-90
12.范亚民,何平,李建龙,沈守云.城市不同植被配置类型空气负离子效应评价.生态学杂志,2005,24(8):883-886
13.冯采芹.绿化在城市碳氧平衡中的作用.绿化环境效应研究.北京:中国环境科学出版社,1992
14.冯采芹.有关树木净化SO_2的几个问题.环境科学,1981,3(4):33-107
15.韩素梅.沈阳地区主要树木净化SO_2潜力的研究.辽宁大学学报,2001,28(2):174-179
16.花晓梅.树木杀菌作用研究初报绿化环境效应研究.绿化环境效应研究.北京:中国环境科学出版社,1992
17.黄晨,建筑环境学.北京:机械工业出版社,2005
18.黄静.城市绿地系统发展新潮流—规划指标理性化.南京农专学报,2003,19(3):22-26
19.黄晓鸾,张国强,贾建中.城市生存环境绿色量值群的研究6—城市生存环境绿色量值群.中国园林,1998,14(6):57-60
20.黄卫昌,秦俊,胡永红,赵玉婷.屋顶绿化植物的选择—景天类植物在上海市的应用,安徽农业科学,2005,33(6):1041-1043
21.胡海红,戴修道,李莉,张连全.室内绿化净化功能的研究.上海建设科技,1996(6):37-38
22.胡聘.城市绿地综合效益评价方法探讨—天津实例应用.城市环境与城市生态,1994,7(1):18-22
23.康博文,刘建军,王得祥.陕西20种主要绿化树种滞尘能力的研究.陕西林业科技,2003,(4):54-56
24.李海清,“绿色建筑”之表皮—试图将瑞士经验运用于南京地区的个案研究与方法.城市建筑,2005,(10):24-27
25.李辉,赵卫智,古润泽,李延明,陈自新,张新献.居住区不同类型绿地释氧固碳及降温增湿作用.环境科学,1999,20(11):41-44
26.林忠宁.空气负离子在卫生保健中的作用.生态科学,1999,18(2):87-90
27.刘昕,孙铭,朱俊,董巍,王祥荣.上海城市森林评价指标体系.复旦学报(自然科学版),2004,43(6):988-994
28.刘滨谊,姜允芳.中国城市绿地系统规划评价指标体系研究.城市规划汇刊,2002,(2):27-29
29.刘福才.城市绿地环境效益的研究.中国园林,1986,2(2):10-11
30.刘光立,陈其兵.成都市四种垂直绿化植物生态学效应研究.西华师范大学学报(自然科学版),2004a,25(3):259-262
31.刘光立,陈其兵.四种垂直绿化植物杀菌滞尘效应的研究,四川林业科技,2004b,25(3):53-55
32.刘光立,陈其兵.四种垂直绿化植物吸污效应研究.西南园艺,2004c,32(4):1-2
33.刘光立.垂直绿化及其生态效益研究.[硕士论文].成都:四川农业大学,2002
34.刘厚田.太原地区某些植物净化SO_2潜力的研究.植物生态学与地植物学学报,1988,12(3):216-221
35.刘骏,蒲蔚然.小议城市绿地指标.重庆建筑大学学报,2001,2(4):33-108
36.刘凯昌,苏树权,江建发,许文安.不同植被类型空气负离子状况初步调查.广东林业科技,2002,18(2):37-39
37.刘凯昌,许文安.珠海市空气负离子水平初步调查.广东林勘设计,1996,(2):11-15
38.刘煜,Deo Prasad.当代绿色生态建筑评价方式综述.工程设计CAD与智能建筑,2002,(4):44-47
39.鲁敏.北方吸污绿化树种选择.中国园林,2002,(3):86-88
40.陆佳,王祥荣.上海浦东外高桥保税区生态绿地系统评价与规划.中国园林,1998,14(3):10-13
41.陆旭蕾,刘艳,粟志峰,张凤云.城市绿地对减弱环境噪声作用的探讨.石河子科技,2003,(5):17-18
42.罗充,理燕霞,张伟,周训怀,彭惠蓉.19种园林植物组织杀菌作用的研究.安徽农业科学,2005,33(5):810-811
43.罗红艳,李吉跃,刘增.绿化树种对大气SO_2的净化作用.北京林业大学学报,2000,22(1):43-119
44.绿色奥运建筑研究课题组.绿色奥运建筑评估体系.北京:中国建筑工业出版社,2003
45.马瑞桐.合理室内绿化降低飘尘量.中国产经新闻报,2005,12(10):A10
46.马栓.软质景观—园林植物的作用.山西建筑,2002,28(11):142-143
47.马晓龙,贾媛媛,赵荣.城市绿地系统效益评价模型的构建与应用.城市环境与城市生态,2003,16(5):28-30
48.倪涌舟.室内绿化装饰对低频噪声烦恼度的影响.浙江林学院学报,2006,23(1):112-114
49.秦俊,傅徽楠,杨林.室内绿化对建筑综合症的缓解作用.福建林学院学报,2002,22(4):308-311
50.孙儒泳,李博,诸葛阳,尚玉昌.普通生态学.北京:高等教育出版社,1993
51.唐斌,韩冬青.城市建筑复合绿化方法研究.东南大学学报(自然科学版),2005,(35):196-200
52.唐东芹,杨学军,许东新.园林植物景观评价方法及其应用.浙江林学院学报,2001,18(4):394-397
53.陶久阳,袁忠利,张凤歧,田桂英.植物对大气SO_2积累特点与净化能力的研究.辽宁林业科技,1998,(3):29-33
54.田玉军,巨天珍,冯克宽.兰州市功能区大气细菌污染和城市绿地系统杀菌效应分析.中国环境监测,2003,19(3):43-117
55.王彩霞,何平,王保忠.株洲市道路植物景观的数量化分析.中南林学院学报,2004,24(2):100-103,110
56.王洪俊.城市森林结构对空气负离子水平的影响.南京林业大学学报(自然科学版),2004,28(5):96-98
57.王菁黎,罗菊春.风景林植物群落质量的综合评价.福建林学院学报,2004,24(4):379-384
58.王月菡.基于生态功能的城市森林绿地规划控制性指标研究—以南京市为例.[硕士学位论文].南京:南京林业大学,2004
59.王赞红,李纪标.城市街道常绿灌木植物叶片滞尘能力及滞尘颗粒物形态.生态环境,2006,15(2):327-330
60.魏斌,王景旭,张涛.城市绿地生态效果评价方法的改进.城市环境与城市生态,1997,10(4):54-56
61.吴楚材,钟林生,刘晓明.马尾松纯林林分因子对空气负离子浓度影响的研究.中南林学院学报,1998,18(1):70-73
62.吴际友,程政红,龙应忠,童方平,宋庆安,刘云国.园林树种林分中空气负离子水平的变化.南京林业大学学报(自然科学版),2003,27(4):78-80
63.武勇.植物造景在现代城市景观设计中的应用.山西科技,2005,(5):93-94
64.肖荣波,周志翔,王鹏程,叶贞清,郭尔祥,冀广超.武钢工业区绿地景观格局分析及综合评价.生态学报,2004,24(9):1924-1930
65.许萍,车伍,李俊奇.屋顶绿化改善城市环境效果分析.环境保护,2004,(7):41-44
66.徐燕,谢东营.乌鲁木齐城市绿地系统景观生态综合评价.干旱区资源与环境,2003,17(5):22-25
67.徐业林,俞家玲.鹞落坪自然保护区环境中空气离子状况分析.中国卫生工程学,2006,5(2):63-137
68.严铃璋.可持续发展与城市绿化.中国园林,2003.(4):44-47
69.严晓,王希华,刘丽正,谢远程.城市绿地系统生态效益评价指标体系初报.浙江林业科技,2003,22(2):68-72
70.阳柏苏,何平,范亚明.城郊绿地系统结构与负离子发生的生态分析.怀化学院学报,2003,22(5):64-67
71.杨士弘.城市绿化树木的降温增湿效应研究.地理研究,1994,13(4):74-80
72.杨士弘.城市绿化树木碳氧平衡效应研究.城市环境与城市生态,1996,9(1):37-39
73.姚成,许志鸿.沪杭高速公路上海段降噪绿化带的设计和应用.华东公路,1999,(5):70-72
74.余世金.城市住区绿化生态性评价方法.华侨大学学报(自然科学版),2005,26(1):106-109
75.俞孔坚,段铁武,李迪华,彭晋福.景观可达性作为衡量城市绿地系统功能指标的评价方法与案例.城市规划,1999,(23):8-11,43
76.张德强,褚国伟,余清发,刘世忠,陆耀东,胡羡聪,薛克娜,孔国辉.园林绿化植物对大气二氧化硫和氟化物污染的净化能力及修复功能.热带亚热带植物学报,2003,11(3):336-340
77.张华,宋宗强,郭镭.城市园林绿化定量评价方法研究.广东园林,2004,(1):36-40
78.张璐,张尚武.浅谈城市屋顶绿化的功能和意义.城市减灾,2006,(1):32-35
79.张明丽,胡永红,秦俊.城市植物群落的减噪效果分析.植物资源与环境学报,2006,15(2):23-98
80.张庆费,庞名瑜,姜义华,胡岗.上海主要绿化树种的抑菌物质和芳香成分分析.植物资源与环境学报,2000,9(2):62-64
81.张新献,古润泽,陈自新,李延明,韩丽莉,李辉.北京城市居住区绿地的滞尘效益.北京林业大学学报,1997a,19(4):12-17
82.张新献,古润泽,李延明,李辉.居住区绿地对其空气中细菌含量的影响.中国园林,1997b,13(2):57-58
83.张秀梅,李景平.城市污染环境中适生树种滞尘能力研究.环境科学动态,2001,(2):27-30
84.赵定国,薛伟成.轻型屋顶绿化的降温效果.上海农业学报,2006,22(1):53-55
85.赵勇,李树人,阎志平.城市绿地的滞尘效应及评价方法.华中农业大学学报,2002,21(6):582-586
86.仲平.建筑生命周期能源消耗及其环境影响研究.[硕士论文].成都:四川大学,2005
87.周志翔,邵天一,王鹏程,高翅,徐永荣,郭尔祥,徐隆辉,叶贞清,彭行梅,于春杰.武钢厂区绿地景观类型空间结构及滞尘效应.生态学报,2002,22(12):2036-2040
88.祝宁,李敏,柴一新.哈尔滨市绿地系统生态功能分析.应用生态学报,2002,13(9):1117-1120
89. Ayaz M. Traffic noise abatement through tree and shrub vegetation. Paskistan Journal of Forestry, 1999, 48(1/4): 1-11
90. Dana E D, Vivas S, Mota J F. Urban vegetation of America City: a contribution to urban ecology in Spain Lands. Urban Plan, 2002, (59):203-216
91. Germann-Chiari C, Seeland K. Are urban green spaces optimally distributed to act as social integration? Results of a geographical information system(GIS) approach for urban forestry research. Forest Policy and Economics, 2004, (6):3-13
92. Hunter I R. What do people want from urban forestry?-The European experience. Urban Ecosystems, 2003, (5):277-284
93. Jim C Y. The urban forestry programme in the heavily built-up milieu of Hong Kong. Cities, 2000, 17(4):271-283
94. Konijnendijk C C. A decade of urban forestry in Europe. Forest Policy and Economics, 2003, (5):173-186
95. Konijnendijk C C. Adapting forestry to urban demands-role of communication in urban forestry in Europe. Landscape and Urban Planning, 2000, (52):89-100
96. Profous G V, Rowntree R A, Loeb R E. Theurban forest landscape of Athens, Greece:aspects of structure, planning and management. Arboricultural Journal, 1988, (12):83-107
97. Profous G V, Rowntree R A. The structure and management of the urban forest in Prague, Czechoslovakia. Arboriculture Journal, 1993, (17): 1-13
98. Young D R. Diffrerences in leaf structure, chlorophyll and nutrients for the understroy tree Asminatriloba. Amer. J. Bot, 1987, 74(10):1487-1491