Stroppiana et al. - 2006 - Evaluation of LAI-2000 for leaf area index monitor
Stroppiana et al. - 2006 - Evaluation of LAI-2000 for leaf area index monitor
Stroppiana et al. - 2006 - Evaluation of LAI-2000 for leaf area index monitor
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
170<br />
D. <strong>Stroppiana</strong> <strong>et</strong> <strong>al</strong>. / Field Crops Research 99 (<strong>2006</strong>) 167–170<br />
Dingkuhn, M., Johnson, D.E., Sow, A., Audebert, A.Y., 1999. Relationships<br />
b<strong>et</strong>ween upland rice canopy characteristics and weed comp<strong>et</strong>itiveness.<br />
Field Crop. Res. 61, 79–95.<br />
Ewert, F., 2004. Modelling plant responses to elevated CO2: how important<br />
is <strong>leaf</strong> <strong>area</strong> <strong>index</strong>? Ann. Bot. 93, 619–627.<br />
Gomez, K.A., 1972. Techniques <strong>for</strong> field experiments with rice. Internation<strong>al</strong><br />
Rice Research Institute. Los Banos, Philippines.<br />
Gower, S.T., Kucharik, C.J., Norman, J.M., 1999. Direct and indirect<br />
estimation <strong>of</strong> <strong>leaf</strong> <strong>area</strong> <strong>index</strong>, fAPAR, and n<strong>et</strong> primary production <strong>of</strong><br />
terrestri<strong>al</strong> ecosystems. Remote Sens. Environ. 70, 29–51.<br />
Greenwood, D.J., Ne<strong>et</strong>eson, J.J., Draycott, A., 1985. Response <strong>of</strong> potatoes<br />
to N fertilizer: dynamic model. Plant Soil 85, 185–203.<br />
Jonckheere, I., Fleck, S., Nackaerts, K., Muys, B., Coppin, P., Weiss, M.,<br />
Bar<strong>et</strong>, F., 2004. Review <strong>of</strong> m<strong>et</strong>hods <strong>for</strong> in-situ <strong>leaf</strong> <strong>area</strong> <strong>index</strong> d<strong>et</strong>ermination.<br />
Part I. Theories, sensors and hemispheric<strong>al</strong> photography. Agric.<br />
Forest M<strong>et</strong>eorol. 121, 19–35.<br />
Kiniry, J.R., McCauley, G., Xie, Y., Arnold, J.G., 2001. Rice param<strong>et</strong>ers<br />
describing crop per<strong>for</strong>mance <strong>of</strong> Four U.S. Cultivars. Agron. J. 93, 1354–<br />
1361.<br />
Leblanc, S.G., Chen, J.M., 2001. A practic<strong>al</strong> scheme <strong>for</strong> correcting multiple<br />
scattering effects on optic<strong>al</strong> <strong>LAI</strong> measurements. Agric. Forest M<strong>et</strong>eorol.<br />
110, 125–139.<br />
Lockwood, J.G., 1999. Is potenti<strong>al</strong> evapotranspiration and its relationship<br />
with actu<strong>al</strong> evapotranspiration sensitive to elevated atmospheric CO2<br />
levels? Clim. Change 41, 193–212.<br />
M<strong>al</strong>one, S., Herbert Jr., D.A., Holshouser, D.L., 2002. Ev<strong>al</strong>uation <strong>of</strong> the<br />
<strong>LAI</strong>-<strong>2000</strong> plant canopy an<strong>al</strong>yzer to estimate <strong>leaf</strong> <strong>area</strong> in manu<strong>al</strong>ly<br />
defoliated soybean. Agron. J. 94, 1012–1019.<br />
Monsi, M., Saeki, T., 1953. Über den Lichtfaktor in den Pfanzengesellschaften<br />
und seine Bedeutung für die St<strong>of</strong>fproduktion. Jpn. J. Bot. 14, 22–52.<br />
Soltani, A., G<strong>al</strong>eshi, S., 2002. Importance <strong>of</strong> rapid canopy closure <strong>for</strong> wheat<br />
production in a temperate sub-humid environment: experimentation and<br />
simulation. Field Crop. Res. 77, 17–30.<br />
Vaesen, K., Gilliams, S., Nackaerts, K., Coppin, P., 2001. Ground-measured<br />
spectr<strong>al</strong> signatures as indicators <strong>of</strong> ground cover and <strong>leaf</strong> <strong>area</strong> <strong>index</strong>: the<br />
case <strong>of</strong> paddy rice. Field Crop. Res. 69, 13–25.<br />
Watson, D.J., 1947. Comparative physiologic<strong>al</strong> studies in the growth <strong>of</strong> field<br />
crops. I. Variation in n<strong>et</strong> assimilation rate and <strong>leaf</strong> <strong>area</strong> b<strong>et</strong>ween species<br />
and vari<strong>et</strong>ies, and within and b<strong>et</strong>ween years. Ann. Bot. 11, 41–76.<br />
Weiss, M., Bar<strong>et</strong>, F., Smith, G.J., Jonckheere, I., Coppin, P., 2004. Review <strong>of</strong><br />
m<strong>et</strong>hods <strong>for</strong> in-situ <strong>leaf</strong> <strong>area</strong> <strong>index</strong> (<strong>LAI</strong>) d<strong>et</strong>ermination: Part II. Estimation<br />
<strong>of</strong> <strong>LAI</strong>, errors and sampling. Agric. Forest M<strong>et</strong>eorol. 121, 37–53.<br />
Welles, J.M., Cohen, S., 1996. Canopy structure measurement by gap fraction<br />
an<strong>al</strong>ysis using commerci<strong>al</strong> instrumentation. J. Exp. Bot. 47, 1335–1342.<br />
Wilhelm, W.W., Ruwe, K., Schlemmer, M.R., <strong>2000</strong>. Comparison <strong>of</strong> three<br />
<strong>leaf</strong> <strong>area</strong> <strong>index</strong> m<strong>et</strong>ers in a corn canopy. Crop Sci. 40, 1179–1183.<br />
Yoshida, S., 1981. Fundament<strong>al</strong>s <strong>of</strong> Rice Crop Science. Internation<strong>al</strong> rice<br />
Research Institute. Los Banos, Philippines.<br />
Zar, J.H., 1996. Biostatistic<strong>al</strong> an<strong>al</strong>ysis., 3rd ed. Pr<strong>et</strong>ice H<strong>al</strong>l, Hupper Sandler<br />
River, New Jersey, USA.
Change language