The influence of agricultural rotations on the content of chlorophyll and the leaf index in maize plants
Jorgji, K.; Kristo, I.
Buletini i Shkencave Bujqesore 28(3): 11-20
1989
Accession: 002252452
Crop rotations (with wheat, sunflowers and clover) and fertilizer application increased LAI and total chlorophyll content in maize. Chlorophyll content and LAI were positively correlated.
PDF emailed within 1 workday: $29.90
Related References
Jorgji, K.V.; Kristo, I.L. 1994: The influence of crop rotation on the chlorophyll content and leaf area index in the maize crop Proceedings of the third congress of the European Society for Agronomy, Padova University, Abano Padova, Italy, 18-22 September 1994: 708-709Aoki, M.; Wang, M.X.; Yabuki, K.; Totsuka, T. 1986: Remote sensing of chlorophyll content of leaf ii. effective spectral reflection characteristics for evaluations of chlorophyll content and leaf area index of plant community Environment Control in Biology 24(1): 33-40
Sampathkumar, T.; Pandian, B. J.; Jeyakumar, P.; Manickasundaram, P. 2014: Effect of Deficit Irrigation on Yield, Relative Leaf Water Content, Leaf Proline Accumulation and Chlorophyll Stability Index of Cotton-Maize Cropping Sequence Experimental Agriculture 50(3): 407-425
Milas, A.S.; Romanko, M.; Reil, P.; Abeysinghe, T.; Marambe, A. 2018: The importance of leaf area index in mapping chlorophyll content of corn under different agricultural treatments using UAV images International Journal of Remote Sensing 39(15-16): 5415-5431
Pereira, L. de M.; Pereira, E. de M.; Mazza Revolti, L.T.; Zingaretti, S.M.; Moro, G.V. 2015: Seed quality, chlorophyll content index and leaf nitrogen levels in maize inoculated with Azospirillum brasilense Revista Ciencia Agronomica 46(3): 630-637
Sankar, C.R.; Swamy, S.M. 1988: Influence of light and temperature on leaf area index, chlorophyll content and yield of ginger Journal of Maharashtra Agricultural Universities 13(2): 216-217
Bhati, A.S.; Sharma, S.K. 2006: Influence of potassium and time of application on leaf area index and chlorophyll content of mustard Environment and Ecology 24S(Special 3): 724-725
Sharma, K.; Grewal, D.S.; Dhillon, M.S.; Dhingra, K.K. 1993: Effect of crop geometry and nitrogen fertilizers on chlorophyll content, leaf area index, PAR interception, quality and yield of mungbean intercropped with maize Environment and Ecology 11(1): 74-77
Kara, B.; Mujdeci, M. 2010: Influence of late-season nitrogen application on chlorophyll content and leaf area index in wheat Scientific Research and Essays 5(16): 2299-2303
Haspelova-Horvatovicova, A. 1963: Changes in the epiphasic carotenoids and the dry-matter content of albinotic lethal maize plants under the influence of artificial nutrition. Contribution to the physiology of chlorophyll-deficient lethal plants of Z. mays. V Biologia (Bratislava) 18: 409-418
Korkovelos, A. E.; Goulas, C. K. 2011: Divergent Mass Selection for Leaf Chlorophyll Content Measured Using Chlorophyll Meter Readings in a Maize Composite Population Crop Science 51(4): 1437-1443
Zou, X; Hernández-Clemente, Río; Tammeorg, P; Lizarazo Torres, C; Stoddard, F L.; Mäkelä, P; Pellikka, P; Mõttus, M 2015: Retrieval of leaf chlorophyll content in field crops using narrow-band indices: effects of leaf area index and leaf mean tilt angle International Journal of Remote Sensing 36(24): 6031-6055
Maire,G.le; Francois,C.; Soudani,K.; Berveiller,D.; Pontailler,J.Y.; Breda,N.; Genet,H.; Davi,H.; Dufrene,E. 2008: Calibration and validation of hyperspectral indices for the estimation of broadleaved forest leaf chlorophyll content, leaf mass per area, leaf area index and leaf canopy biomass Remote Sensing of Environment 2: 10, 3846-3864
Le Maire, G.; Francois, C.; Soudani, K.; Berveiller, D.; Pontailler, J.Y.; Brkda, N.; Genet, H.; Davi, H.; Dufrene, E. 2008: Calibration and validation of hyperspectral indices for the estimation of broadleaved forest leaf chlorophyll content, leaf mass per area, leaf area index and leaf canopy biomass Remote Sensing of Environment 112(10): 3846-3864
Yang ChwenMing 2003: Using chlorophyll meter to estimate leaf chlorophyll and nitrogen content of rice plants Journal of Agricultural Research of China 52(1): 73-83
Nguy-Robertson, A.; Peng, Y.; Arkebauer, T.; Scoby, D.; Schepers, J.; Gitelson, A. 2015: Using a Simple Leaf Color Chart to Estimate Leaf and Canopy Chlorophyll a Content in Maize (Zea mays) Communications in Soil Science and Plant Analysis 46(21): 2734-2745
Croft, H.; Chen, J.M.; Zhang, Y. 2014: Temporal disparity in leaf chlorophyll content and leaf area index across a growing season in a temperate deciduous forest International Journal of Applied Earth Observation and Geoinformation 33: 312-320
Cheng, Q.; Huang, J.; Wang, R.; Tang, Y. 2004: Correlation analysis of simulated MODIS vegetation indices and rice leaf area index and leaf chlorophyll content Ying Yong Sheng Tai Xue Bao 15(8): 1363-1367
Tsujimoto, K.; Hikosaka, K. 2021: Estimating leaf photosynthesis of C3 plants grown under different environments from pigment index, photochemical reflectance index, and chlorophyll fluorescence Photosynthesis Research 148(1-2): 33-46
Li, Q.; Meng, X. H.; Li, D.; Zhao, M. H.; Sun, S. L.; Li, H. M.; Li, W.; Qiao, W. C. 2019: Evaluation of Heat Tolerance Index, Susceptibility Index of Canopy Temperature and Leaf Chlorophyll Content of Wheat (Triticum Aestivum L.) Applied Ecology and Environmental Research 17(4): 7357-7369