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- 2006

用LAI监测植被信息分析飞蝗生境

倪绍祥, 周欣欣, 李云梅,吴彤

Keywords: 东亚飞蝗,叶面积指数,植被冠层,孔隙度,植被盖度,发生面积

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Abstract:

摘要：东亚飞蝗自20世纪80年代以来在我国再度猖獗危害。本文选择国家一类蝗区河北省黄骅市为实验区,用植被冠层孔隙度反演了该地区不同植被的LAI。从光学模型建立机理及数量分析的角度,分析和对比了四种由植被冠层孔隙度反演LAI的算法。结果表明,在四种估算方法中LAI-2000算法最适用于研究区植被LAI的估算。为了验证分析结果,用实测的植被盖度与四种算法反演的LAI进行了拟合。发现LAI与植被盖度之间呈明显的正相关关系,且LAI-2000算法最能反映研究区的植被特征。在此基础上,建立了LAI与飞蝗发生面积的关系模型,发现两者之间呈负线性相关,即随着LAI的减小,飞蝗的发生面积呈线性增大。研究结果为实时、快速、大面积监测蝗虫种群动态奠定了基础,并为合理、经济地防治蝗灾提供了科学依据。

References

[1]	朱恩林.中国东亚飞蝗发生与治理.北京:中国农业出版社,1999,3-38.
[2]	陈永林.蝗虫灾害的特点、成因和生态学治理.生物学通报,2000,35(7):1-5.
[3]	黄辉,朱恩林.我国蝗虫发生防治动态.大自然,2001,(5):29-30.
[4]	Magor J I,Pender J. Desert locust forcasters' GIS: a re-searchers' view. In: Kral S,Peveling R and Diallo Ba D (eds.). New Strategies in Locuat Control. Birkhauser,Berlin.1997,21-26.
[5]	倪绍祥,蒋建军,王杰臣.遥感与GIS在蝗虫灾害防治研究中的应用进展.地球科学进展,2000,15(1):97-100.
[6]	季荣,张霞,谢宝瑜等.用MODIS遥感数据监测东亚飞蝗灾害.昆虫学报,2003,46(6):713-719.
[7]	马建文,韩秀珍,哈斯巴干等.东亚飞蝗灾害的遥感监测实验.国土资源遥感,2003.1:51-55.
[8]	Webb W L,Lauenroth W K,Szarek S R,Kinerson R S. Primary production and abiotic controls in forests,grass-lands,and desert ecosystems in the United States. Ecology,1983,64: 134-151.
[9]	Campbell G S,Norman J M. The description and measure-ment of plant canopy structure. Plant Canopies: Their Growth,Forcn,and Function. Society for Experimental Bi-ology:31. Cambridge University Press,Cambridge. 1989,1-19.
[10]	Welles J M,Norman J M. Instrument for indirect mea-surement of canopy architecture. Agron工,1991,83 (5): 818-825.
[11]	Chason J W,Baldocchi D D,Huston M A. Comparison of direct and indirect methods for estimating forest canopy leaf-area. Agricultural and Forest Meteorology,1991,57: 107-128.
[12]	Dufrene E,Br}da N. Estimation of deciduous forest leaf-area index using direct and indirect methods. Oecology,1995,104: 156-162.
[13]	van Gardingen P R,Jackson G E,Hernandez-Daumas S,Russell G,Sharp L. Leaf area index estimates obtained for clumped canopies using hemispherical photography. Agri-cultural and Forest Meteorology,1999,94: 243-257.
[14]	Pedgley D E. Testing feasibility of detecting locust breed-ing sites by satellite. Final report to NASA on ERTS-1 Experiment. COPR London,1973.
[15]	Mcculloch L,Hinter D M. Identification and monitoring of Australian plague locust habitats from Landsat. Remote Sensing of Environment,1983,13(1):95-102.
[16]	周国法,徐汝梅.生物地理统计学.北京:科学出版社,1998,146-150.
[17]	Jarvis P G,Leverenz J W. Productivity of temperate,de-ciduous and evergreen forests. Encyclopedia of Plant Physiology,New Series,Vol. 12D,Physiological Plant E-cology,IV. Berlin: Springer-Verlag,1983. 233-280.
[18]	Marshall J D,blaring R H. Comparison of methods of es-timating leaf-area index in old-growth Douglas-fir. Ecolo-gy,1986,67: 975-979.
[19]	Campbell G S. Extinction coefficients for radiation in plant canopies calculated using an ellipsoidal inclination angle distribution. Agricultural and Forest Meteorology,1986,36: 317-321.
[20]	Bonhomme R,Chartier P. The interpretation and auto-matic measurement of hemispherical photographs to obtain sunlit foliage area and gap frequency. Isr. J. Agtic. Res.,1972,22: 53-61.
[21]	Miller J B. A formula for average foliage density. Aust. J. Bot.,1967,15:141-144

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