|Table of Contents|

Effects of foliar dust on plant reflectance spectra and physiological ecology: A review(PDF)

Chinese Journal of Applied & Environmental Biology[ISSN:1006-687X/CN:51-1482/Q]

2014 06
Research Field:
Publishing date:


Effects of foliar dust on plant reflectance spectra and physiological ecology: A review
WU Chunyan WANG Xuefeng
Research Institute of Forest Resource Information Techniques, Chinese Academy of Forestry, Beijing 100091, China
haze foliar dust reflection spectra physiological ecology

With the intensified impact of human activities on the environment, fine particle groups increase in size, complexity and damage. The tiny particles or dust are closely related to haze, having negative influence not only on human health but also on vegetation reflectance spectra and physiological ecology. This paper summarizes the relationship between haze and foliar dust, which can well represent the composition of atmospheric particles. The atmospheric particulates form foliar dust by attaching to the surface of plant leaves under gravity and other factors. Foliar dust decreases spectral reflectance of plant, affecting plant growth, leaf morphology and photosynthetic efficiency. The review analyzes the current existing problems in research on foliar dust in terms of the research scope, extent, and methods. It points out that more experiments of measurement and validation are needed to understand the effect of foliar dust on the various aspects of plants in order to reduce the damage of foliar dust to plant productivity. This paper concludes that foliar dust has obvious correlation with plant leaf reflectance spectra and parameters of leaf image, that researching the effect of foliar dust on plant leaf reflectance spectra is a complex and relatively new field, and that more systematic research is needed to clarify such effect so as to further improve the management and ecological functions of forests.


彭耕耘. 从雾霾报道看气象新闻的拓展[J]. 热点透视, 2013, 3: 15-16 [Peng GY. Look from the development of Meteorologi-cal News reports from the haze [J]. Hotspot Perspect, 2013, 3: 15-16]
赵秀娟, 蒲维维, 孟伟, 马志强, 董璠, 何迪. 北京地区秋季雾霾天PM2. 5污染与气溶胶光学特征分析[J]. 环境科学, 2013, 34 (2): 416-423 [Zhao XJ, Pu WW, Meng W, Ma ZQ, Dong F, He D. Analysis of autumn haze PM2.5 pollution and aerosol optical characteristics of Beijing [J]. Chin J Envir Sci, 2013, 34 (2): 416-423]
Bergin MH, Greenwald R, Xu J. Influence of aerosol dry deposition on photo synthetically active radiation available to plants: A case study in the Yangtze delta region of China [J]. Geophys Res Lett, 2001, 28 (18): 3605-3608
Santosh KP, Tripathi BD. Seasonal variation of leaf dust accumulation and pigment content in plant species [J]. Urban Partic Pollut, 2008, 37: 865-870
彭丹, 陈进生, 任引. 厦门市行道树芒果和高山榕叶面尘理化特性研究[J]. 福建林业科技, 2011, 38 (2): 62-67, 80 [Diana Peng D, Chen JS, Ren Y. Study on the physicochemical properties of the street trees of mango and Ficusaltissima foliar dust in Xiamen city [J]. J Fujian For Sci Tech, 2011, 38 (2): 62-67, 80]
孙亮. 灰霾天气成因危害及控制治理[J]. 环境科学与管理, 2012, 37 (10): 71-75 [Sun L. The causes of haze weather hazards and control [J]. Environ Sci Manage, 2012, 37 (10): 71-75]
Sharifi MR, Gibson AC, Rundel PW. Surface dust impacts on gas exchange in Mojave Desert shrubs [J]. J Appl Ecol, 1997, 34 (3): 837-846
Harrison RM, Thorpe A. Sources and properties of non-exhaust particulate matter from road traffic: A review [J]. Sci Total Environ, 2008, 400 (1/3): 270-282
Serpil O, Sukru D. Air borne heavy metal pollution of Cedruslibani (A. Rich. ) in the city centre of Konya (Turkey) [J]. Atmosph Environ, 2006, 40 (5): 1122-1133
王会霞, 石辉, 李秧秧. 城市植物叶面尘粒径和几种重金属(Cu、Zn、Cr、Cd、Pb、Ni)的分布特征[J]. 安全与环境学报, 2012, 12 (1): 170-174 [Wang HX, Shi H, Li YY. The particle size and several heavy metals (Cu, Zn, Cr, Cd, Pb, Ni) distribution of foliar dust of city plant [J]. J Saf Environ, 2012, 12 (1): 170-174]
周家斌, 王铁冠, 黄云碧. 不同粒径大气颗粒物中多环芳烃的含量及分布特征[J]. 环境科学, 2005, 26 (2): 40-44 [Zhou JB, Wang TG, Huang YB. Content and distribution characteristics of polycyclic aromatic hydrocarbons in airborne particles with different sizes [J]. Chin J Environ Sci, 2005, 26 (2): 40-44]
Beckett KP, Freer-Smith PH, Taylor G. Urban woodlands: their role in reducing the effects of particulate pollution [J]. Environ Pollut, 1998, 99: 347-360
庞博, 张银龙, 王丹. 城市植物滞尘的研究现状与展望[J]. 山东林业科技, 2009, 181 (2): 126-130 [Pang B, Zhang YL, Wang D. Research status and prospect of plant dust of the city [J]. J Shandong For Sci Tech, 2009, 181 (2): 126-130]
Witherspoon JP, Taylor FG. Retention of a fallout stimulant containing 134Cs by pine and oak trees [J]. Health Phys, 1969, 17: 825-829
殷云龙, 骆永明, 张桃林, 贺剑锋, 徐建华.南京市城乡公路蜀桧叶片中金属元素和氮、硫含量分析[J]. 应用生态学报, 2005, 16 (5): 929-932 [Yin YL, Luo YM, Zhang TL, He JF, Xu JH. Analysis of metal elements and nitrogen, sulfur content of Sabina chinensis leaf in Nanjing city urban and rural highway [J]. Chin J Appl Ecol, 2005, 16 (5): 929-932]
王亚超. 城市植物叶面尘化特征及源解析研究[D]. 南京: 南京林业大学, 2007 [Wang YC. Study on the chemical characteristics and source apportionment of the city foliar dust [D]. Nanjing: Nanjing Forestry University, 2007]
Tomasevic M, Vukmirovic Z, RajsicS. Characterization of trace metal particles deposited on some deciduous tree leaves in an urban area [J]. Chemosphere, 2005, 61: 753-760
王雪峰, 毕于慧, 罗景芳. 银中杨苗木光需求的图像分析法[J]. 林业科学, 2010, 46 (4): 161-165 [Wang XF, Bi HY, Luo JF. Image analysis method of light need of the Populus alba × P. berolinensis [J]. Sci Silv Sin, 2010, 46 (4): 161-165]
王雪峰, 于乐交, 李晓冬. 文冠果幼苗变化动态的彩色图像分析法[J]. 安徽工业大学学报 (自然科学版), 2012, 29 (1): 78-81 [Wang XF, Yu LJ, Li XD. color image analysis of shiny leaf yellow horn seedling’s dynamic changes [J]. J Anhui Tech Univ (Nat Sci Ed), 2012, 29 (1): 78-81]
Duzgoren ANS, Wong CS, Aydin A, Song Z, You M, Li XD. Heavy metal contamination and distribution in the urban environment of Guangzhou [J]. Environ Geochem Health, 2006, 28 (4): 375-391
Muller C, Riederer M. Plant surface properties in chemical ecology [J]. J Chem Ecol, 2005, 31: 2621-2651
薛忠财, 高辉远, 刘鹏, 柳洁. 利用冠层和叶片水平的反射光谱研究模拟酸雨对小麦的影响[J]. 农业环境科学学报, 2011, 30 (2): 228-235 [Xue ZC, Gao HY, Liu P, Liu J. The study on spectral reflectance of canopy and leaf level effects of simulated acid rain on wheat [J]. Agric Acta Sci Circumst, 2011, 30 (2): 228-235]
Lu Y, Gong Z, Zhang G, Wolfgang B. Concentrations and chemical speciation of Cu, Zn, Pb and Cr of urban soils in Nanjing [J]. Chin Geoderma, 2003, 115: 101-111
肖伸亮, 陈仲新. 叶片的灰尘对高光谱遥感中植被冠层反射率的影响[J]. 农业信息科学, 2007, 23 (4): 410-414 [Xiao SL, Chen ZX. Effect of leaf blade’s dust on the hyperspectral remote sensing of reflectance in vegetation canopy [J]. Inform Agric Sci, 2007, 23 (4): 410-414]
王涛, 刘洋, 吴海云, 左月明. 叶面尘对作物反射光谱及氮营养监测的影响[J]. 光谱学和光谱分析, 2012, 32 (7): 1895-1898 [Wang T, Liu Y, Wu HY, Zuo YM. Effect of foliar dust on the crop reflectance spectra and nitrogen nutrition monitoring [J]. Spectrosc Spectral Anal, 2012, 32 (7): 1895-1898]
Jin HX, Jin TY. Air dustfall impact on spectrum of Ficus microcarpa’s leaf [J]. Adv Mater Res, 2013, 2: 813-815
McDonald AG, Bealey WJ, Fowler D, Dragosits U, Skiba U, Smith RI, Donovan RG, Brett HE, Hewitt CN, Nemitz E. Quantifying the effect of urban tree planting on concentrations and depositions of PM10 in two UK conurbations [J]. Atmos Environ, 2007, 41: 8455-8467
GartyJ, Tamir OI, Hassid. Photosynthesis, chlorophyll integrity, and spectral reflectance in lichens exposed to air pollution [J]. J Environ Qual, 2001, 30 (3): 884-893
Liu WG, Fu XH, Wang JS. Spectral reflectance response of Fraxinus mandshurica leaves to above-and belowground competition [J]. Intern J Remote Sensing, 2012, 33 (16): 318-322
Nativ R, Zeev S, Yafit C. Estimating olive leaf nitrogen concentration using visible and near-infrared spectral reflectance [J]. Biosyst Eng, 2013, 114 (4): 426-434
Yuri K, Mitchell AS, Pauline S. Hyperspectral remote sensing of foliar nitrogen content [J]. Atmos Environ, 2012, 110 (3): 185-192
Duan FK, He KB, Ma YL. Concentration and chemical characteristics of PM2. 5 in Beijing China: 2001-2002 [J]. Sci Total Environ, 2006, 355 (1/3): 264-275
Vardaka E, Cook, CM, Lanaras T. Effect of dust from a lamest one quarry on the photosynthesis of Quercus coccifera, an evergreen schlerophyllous shrub[J]. Bull Environ Contam Toxicol, 1995, 54 (7): 414-419
Jeffrey BC, Richard W. Effect of limestone dust accumulation on lateral growth of forest tree [J]. Environ Pollut, 1973, 4 (3): 207-213
Gale J, Easton J. The effect of limestone dust on vegetation in an area with a Mediterranean climate [J]. Environ Pollut, 1979, 19 (2): 89-101
杜梅, 张克云, 陈树元, 徐和宝, 谢明云. 水泥粉尘沉降对杉木等树种生长的影响[J]. 植物资源与环境, 1998, 7 (1): 54-58 [Du M, Zhang KY, Chen SY, Xu HB, Xie MY. Effect of Cement dust settling on the growth of Chinese fir and other species [J]. Plant Resour Environ, 1998, 7 (1): 54-58]
Andrew M, Farmer. The effects of dust on vegetation—a review [J]. Environ Pollut, 1993, 79 (1): 63-75
Xiong ZT. Bioaccumulation and physiological effects of excess lead in a roadside pioneer species onchusoleraceus L. [J]. Environ Pollut, 1997, 97: 275-279
Prusty BA, Mishra PC, Azeez PA. Dust accumulation and leaf pigment content in vegetation near the national highway at Sambalpur, Orissa, India [J]. Ecotoxicol Environ Saf, 2005, 60: 228-235
Gyula B. Effect of metalliferous dusts from dressing works on the growth, development, main metabolic processes and yields of winter wheat in situ and under controlled conditions [J]. Environl Pollut Ser A, Ecol Biol, 1984, 35 (1): 67-73
Ricks GR, Williams RJH. Effects of atmospheric pollution on deciduous woodland. Part2: Effects of particulate matter upon stomatal diffusion resistance in leaves of Quercus petraes (Mattuschka) Leibl [J]. Environ Pollut, 1974, 6: 87-109
Hirano T, Kiyota M, Aiga I. Physical effects of dust on leaf physiology of cucumber and kidney bean plants [J]. Environ Pollut, 1995, 89: 255-261
Fernández EAJ, Rossini OS. The composition and relationships between trace element levels in inhalable atmospheric particles ( PM10) and in leaves of Nerium oleander L. and Lantana cameral L.[J]. Chemosphere, 2006, 62: 1665-1672
Burzyński M, Kobus G. Changes of photosynthetic parameters in cucumber leaves under Cu, Cd and Pb stress [J]. Photosynthetica, 2004, 42: 505-510
Thompson JR, Mueller PW, Fluckiger W, Rutter AJ. The effect of dust on photosynthesis and its significance for roadside plants [J]. Environ Pollut SerA, Ecol Biol, 1984, 34 (2): 171-190
Gyala B. The effect of cement dust pollution on growth and metabolism of Helianthus anus [J]. Environ Pollut Ser A, Ecol Biol, 1980, 22 (5): 182-188
George DN, Ilias FI. Effects of inert dust on olive (Olea europaea L. ) leaf physiological parameters [J]. Environ Sci Pollut Res-Int, 2007, 14 (3): 212-214
Vinit-Dunand F, Epron D, Alaoui-Sosse B, Pierre-MarieB. Effects of copper on growth and on photosynthesis of mature and expanding leaves in cucumber plants [J]. Plant Sci, 2002, 163: 53-58
Paling EI, Humphries G, McCardle I, ThomsonG. The effects of iron ore dust on mangroves in Western Australia: lack of evidence for stomatal damage [J]. Wetlands Ecol Manage, 2001, 45 (9): 363-370
苏行, 胡迪琴, 林植芳, 林桂珠, 孔国辉, 彭长连. 广州市大气污染对两种植物叶绿素荧光特性影响[J]. 植物生态学报, 2002, 26 (5): 599-604 [Su H, Hu DQ, Lin ZF, Lin GZ, Kong GH, Peng CL. Effects of air pollution on two kinds of plant chlorophyll fluorescence characteristics in the city of Guangzhou [J]. China J Plant Ecol , 2002, 26 (5): 599-604]
Benno M, Eller. Road dust induced increase of leaf temperature [J]. Environ Pollut, 1977, 13 (2): 99-107
Jartun M, Ottesen RT, Steinnes E, Tore V. Runoff of particle bound pollutants from urban impervious surfaces studied by analysis of sediments from storm water traps [J]. Sci Total Environ, 2008, 396: 247-263
William JM. Effects of limestone dust on leaf condition, foliar disease incidence, and leaf surface microflora of native plants [J]. Environ Pollut, 1971, 2 (1): 69-76
54 Ellis FD. Studies on the effect of cement-kiln dust on vegetation [J]. J Air Pollut Control Assoc, 1966, 16 (3): 145-150


Last Update: 2015-01-06