PROGRESS IN GEOGRAPHY ›› 2001, Vol. 20 ›› Issue (2): 146-152.doi: 10.11820/dlkxjz.2001.02.007
• Original Articles • Previous Articles Next Articles
JIANG Dong, WANG Nai bin, YANG Xiao huan, LIU Hong hui
Received:
2001-03-01
Revised:
2001-05-01
Online:
2001-04-24
Published:
2001-04-24
CLC Number:
JIANG Dong, WANG Nai bin, YANG Xiao huan, LIU Hong hui . Ecological Connotation and Application of the Vegetation Index-Surface Temperature Feature Space[J].PROGRESS IN GEOGRAPHY, 2001, 20(2): 146-152.
[1] J u stice Tow n shend,Ho lben B H,T ucker C J.A nalysis of the p heno logy of g lobal vegetation u sing m eteo ro log icalsatellite data[J].In terna tiona l J ou rna l of R em ote S ensing,1985,6:1271-1381.[2] L oveland,M erchan t J W,O h len D O et al.D evelopm en t of a land-cover characteristics database fo r thecon term inou s[J].U.S.P hotog ram m a tic E ng ineering and R em ote S ensing,1991,57:1453-1463.[3] 童庆禧等.中国典型地物波谱及其特征分析[M].北京:科学出版社,1990.[4] P rice.U sing the sp ecial con tex t in satellite data to infer reg ional scale evapo tran sp iration[J].IE E E T ransaction ofGeoscience and R em ote S ensing,1989,28:940-948.[5] N em an i,P ierce L L,R unn ing S W,Gow ard S N.D evelop ing satellite derived estim ates of su rface m o istu re status[J].J ou rna l of A pp lied M eteorology,1993,32:548-557.[6] Eh rlich L D.T he su rface tem p eratu re-vegetation index sp ace fo r land cover and land2cover change analysis[J].In terna tiona l J ou rna l of R em ote S ensing,1996,17:463-487.[7] N em an i S R unn ing.L and cover characterization u sing m u ltitem po ral red,near-IR,and therm al-IR data fromNOAA AV HRR[J].Ecological Applica tions,1997,7(1):79-90.[8] T u rk C J,Tow n shend J R,Goff T T.A frica land2cover classification u sing satellite data[J].S cience,1985,227:369-375.[9] 王长耀等.资源环境动态遥感与模型分析试验研究[M].北京:宇航出版社,1993.[10] John C P rice.E stim ating su rface tem p eratu res from satellite therm al infrared data——a sim p le fo rm u lation fo ratm o sp heric effect[J].R em ote S ensing of E nv ironm en t,1983,13:353-361.[11] P rice J C.L and su rface m easu rem en ts from the sp lit w indow channels of NOAA 27 AV HRR[J].J ou rna l ofGeop hy sica l R esea rch,1984,89:7231-7237.[12] O ttle C,V idal M D.E stim ation of land su rface tem p eratu re w ith NOAA 29 data[J].R em ote S ensing ofE nv ironm en t,1992,4:27-41.[13] T ucker C J,Sellers P J.Satellite rem o te sen sing of p rim ary p roduction[J].In terna tiona l J ou rna l of R em oteS ensing,1986,7:1395-1416.[14] H uete A R,J ack son R D,Po st D F.Sp ectral respon se of a p lan t canop y w ith d ifferren t so il back g round s et al,1985[J].R em ote S ensing of E nv ironm en t,1985,17:37-53.[15] O rm sby J P,Choudary B J,Ow e M.V egetation sp atial variab ility and its effect on vegetation ind ices[J].In terna tiona l J ou rna l of R em ote S ensing,1987,8:1301-1306.[16] P rice J C.U sing sp atial con tex t in satellite data to infer reg ional scale evapo tran sp iration[J].I.E.E.E.T ransaction in Geoscience&R em ote S ensing,1990,28:940-948.[17] M on teith J L.P rincip les of environm en t p hysics,1973[M].L ondon:Edw ard A rno ld P ress.[18] B ru tsaert W.Evapo ration in to the atm o sp here,1982[M].Do rd rech t:K luw er A cadem ic Pub lishers.[19] Hop e and M cDow ell.T he relation sh ip betw een su rface tem p eratu re and a sp ectral vegetation index of a tall g rassprairie:effect of bu rn ing and o ther land scap e con trals[J].In terna tiona l J ou rna l of R em ote S ensing,1992,13:2849-2863.[20] F ried l and D avis,sou rces of variation in rad iom etric su rface tem p eratu re over a tall g rass p rairie[J].R em oteS ensing of E nv ironm en t,1994,48:1-7.[21] Gow ard and Hop e.O b served relation betw een therm al em ission and reflected sp ectral rad iance of a com p lexvegetated land scap e[J].R em ote S ensing of E nv ironm en t,1985,18:137-146.[22] P rice J C.U sing the sp atial con tex t in satellite data to infer reg ional scale evapo tran sp iration[J].IE E ET ransactions of Geop hy sica l R esea rch,1989,28:940-948.[23] N em an i,P ierce,R unn ing,Gow ard.D evelop ing satellite derived estim ates of su rface m o istu re statu s[J].J ou rna lof A pp lied M eteorology,1993,32:548-557.[24] J ack son,R eg inato,Id so.W heat canop y tem p eratu re:a p ractical too l fo r evaluating w ater requ irem en ts[J].W a ter resou rces M anag em en t,1977,13:651-656.[25] Schm ugge.R em o te sen sing of su rface so il m o istu re[J].J ou rna l of A pp lied M eteorology,1978,17:1549-1557.[26] Gow ard and Hop e.Evapo ration from com b ined reflected so lar and em itted terrestrial rad iation:p relim inary F IFEresu lts from AV HRR data[J].A d vances in S p ace R esea rch,1989,9:239-249. |
[1] | SUN Rui,CHEN Shaohui,SU Hongbo. Spatiotemporal variations of NDVI of different land cover types on the Loess Plateau from 2000 to 2016 [J]. PROGRESS IN GEOGRAPHY, 2019, 38(8): 1248-1258. |
[2] | Caishan ZHAO, Gang ZENG, Lijuan ZHANG, Xuezhen ZHANG. Effects of cropland and woodland conversion on land surface temperature based on Google Earth and MODIS land data: A case study of the middle and lower reaches of the Yangtze River Basin and its adjacent areas [J]. PROGRESS IN GEOGRAPHY, 2019, 38(5): 698-708. |
[3] | Yihong HU, Daoyi GONG, Rui MAO, Xiaoxue SHI. Relationships between interannual variations of spring winds in the agro-pastoral transitional zone of Northern China and winter sea surface temperature [J]. PROGRESS IN GEOGRAPHY, 2019, 38(5): 709-717. |
[4] | Yuke ZHOU. Detecting Granger effect of vegetation response to climatic factors on the Tibetan Plateau [J]. PROGRESS IN GEOGRAPHY, 2019, 38(5): 718-730. |
[5] | Yanxi ZHAO, Dengpan XIAO, Huizi BAI, Fulu TAO. Research progress on the response and adaptation of crop phenology to climate change in China [J]. PROGRESS IN GEOGRAPHY, 2019, 38(2): 224-235. |
[6] | Fangfang ZHANG, Yonghong ZHENG, Guoyan PAN, Shuai YUAN, Fanxi KONG, Yongdong QI, Dan WANG. Climatic significance of tree-ring δ18O in Shennongjia Mountain [J]. PROGRESS IN GEOGRAPHY, 2018, 37(7): 946-953. |
[7] | Wenying FU. Research progress and prospect on the relationship between industrial clusters and local entrepreneurship [J]. PROGRESS IN GEOGRAPHY, 2018, 37(6): 739-749. |
[8] | Xiaojie WEN, Shunbo YAO, Minjuan ZHAO. Coordinating the development of urbanization and vegetation coverage based on precipitation [J]. PROGRESS IN GEOGRAPHY, 2018, 37(10): 1352-1361. |
[9] | Yinghui JIANG, Limin JIAO, Boen ZHANG. Scale effect of the spatial correlation between urban land surface temperature and NDVI [J]. PROGRESS IN GEOGRAPHY, 2018, 37(10): 1362-1370. |
[10] | Zhuowen ZHAO, Lianpeng ZHANG, Xing LI, Yongxiang WANG, Shengli WANG. Monitoring vegetation dynamics during the growing season in Ningxia based on MOD13Q1 data [J]. PROGRESS IN GEOGRAPHY, 2017, 36(6): 741-752. |
[11] | Ailin LIU, Wenhui KUANG, Chi ZHANG. Potential impacts of industrial land expansion on food security in China, 1990-2015 [J]. PROGRESS IN GEOGRAPHY, 2017, 36(5): 618-625. |
[12] | Bin LI, Huimin WANG, Mingzhou QIN, Pengyan ZHANG. Comparative study on the correlations between NDVI, NDMI and LST [J]. PROGRESS IN GEOGRAPHY, 2017, 36(5): 585-596. |
[13] | Yuanzheng LI, Ke YIN, Hongxuan ZHOU, Xiaolin WANG, Dan HU. Progress in urban heat island monitoring by remote sensing [J]. PROGRESS IN GEOGRAPHY, 2016, 35(9): 1062-1074. |
[14] | Deqin FAN, Xuesheng ZHAO, Wenquan ZHU, Zhoutao ZHENG. Review of influencing factors of accuracy of plant phenology monitoring based on remote sensing data [J]. PROGRESS IN GEOGRAPHY, 2016, 35(3): 304-319. |
[15] | DING Jingyi, ZHAO Wenwu, WANG Jun, FANG Xuening. Scale effect of the impact on runoff of variations in precipitation/vegetation: taking northern Shaanxi loess hilly-gully region as an example [J]. PROGRESS IN GEOGRAPHY, 2015, 34(8): 1039-1051. |
|