References
- Remote Sensing of Envinonment v.43 Importance of leaf area index and forest type when estimating photosynthesis in boreal forests Bonan,G.
- International Journal of Remote Sensing v.7 no.2 Satellite-derived of leaf area index and vegetation maps as input to global caron cycle models - a hierarchical approach Badhwar,G.D.;R.B.MacDonald;N.C.Mehta
- Remote Sensing of Environment v.71 A Shortwave modification to the simple ratio for LAI retrieval in boreal forests; An image and model analysis Brown,L.;J.M.Chen;S.G.Leblanc;J.Cihlar
- Remote Sensing of Environment v.62 On the relation between NDVI, fractional vegetation cover, and leaf area index Carlson,N.T.;D.A.Reley
- Remote Sensing of Environment v.55 Retrieving leaf area index of Boreal conifer forests using Landsat TM images Chen,J.M.;J.Cihlar
- Jour. Of Geophysical Research v.104D22 Compact Airbone Spectrographic Imager (CAST) used for mapping biophysical parameters of boreal forests Chen,J.M.;S.G.LeBlanc;J.R.Miller;J.Freemantle;S.E.Loechel;C.L.Walthall;K.A.Innanen;H.P.White
- Remote Sensing of Environment v.84 An improved strategy for reression of biophysical variables and Landsat ETM+data Cohen,W.B.;T.K.Maierpserger;S.T.Gower;D.P.Turner
- Remote Sensing of Environment v.17 A TM taseled cap equivalent transformation for reflectance factor data Crist,E.P.
- Remote Sensing of Environment v.39 Seasonal LAI measurements in slash pine using Landsat TM. Curran,P.J.;J.Dungan;H.L.Gholz
- Remote Sensing of Environment v.78 Investigation relationships between Landsat ETM+ sensor data and leaf area index in a boreal conifer forest Eklundh,L.;L.Harrie;A.Kuusk
- Remote Sensing of Environment v.61 Extimating of leaf area index of north central Wisconsin forests using the Landsat Thematic Mapper Fassnacht,K.S.;T.G.Stith
- Remote Sensing of Environment Direct and indirect estimation of leaf area indes, fAPAR, and net primary production of terrestrial ecosystems Gower,S.;C.Kucharik;J.Norman
- International Journral of Remote Sensing v.23 no.8 Derivation of a Tasseled Cap Transformation based on Landsat 7 at-satellite reflectance Huang,C.;B.Wylie;L.Yang;C.Homer;G.Zylstra
- Korean Journal of Remote Sensing v.19 no.1 Local validation of MODIS global Leaf Are Index (LAI) product over temperate forest Kim,S.H.;K.S.Lee https://doi.org/10.7780/kjrs.2003.19.1.1
- Korean Journal of Remote Sensing v.13 no.3 Radiometric correction of terrain effects for SPOT and Landsat TM imagery in mountainous forest area Lee,K.S.;J.S.Yoon https://doi.org/10.7780/kjrs.1997.13.3.277
- Instruction Manual - LAI2000 Plant Canopy Analyzer Li-Cor
- International Journal of Remote Sensing v.14 Forest ecosystem processes at the watershed scale: Sensitivity to remotely-sensed leaf area index estimates Nemani,R.R.;L.Pierce;S.Running;L.Band
- IEEE Transactions on Geoscience and Remote Sensing v.39 no.2 The role of canopy structure in the spectral variation o transmission and absorption of solar radiation in vegetation canopies Panferov,O.;Y.Knyzaikhin;R.B.Myneni;J.Szarzynski;S.Engwald;K.G.Schnitzler;G.Gravenhorst
- Photogrammeric Engineering & Remote Sensing v.46 no.9 The Lambertian assumption and Landsat data Smith,J.A.;T.L.Lin;K.J.Ranson
- Can. J. Remote Sensing v.29 no.3 Gap fraction based estimation of LAI in Scots pine stands subjected to experimental remoal of branches and stems Stenberg,P.;T.Nilson;H.Smolander;P.Voipio
- IEEE Transactions on Geoscience and Remote Sensing v.38 Prototyping of MODIS LAI and FPAR algorithm with LASUR and Landsat data Tian,Y.;Y.Zhang;Y.Knyazikhin
- Remote Sensing of Environment v.70 Repationships between leaf area index and Landsat TM spectral vegetation indices across three temperate zone sites Turner,D.;W.Cohen;R.Kennedy;K.Fassnacht;I.Briggs