Frequency distribution and mean comparisons of red light absorbance-transmittance of the e1 leaf sectors of five pipeline maize hybrids during early grain filling in subtropical winter
- Published
- Accepted
- Subject Areas
- Agricultural Science, Plant Science, Soil Science
- Keywords
- red light absorbance-transmittance, SPAD, Soil Plant Analysis and Development, maize leaf, mean comparison of the SPAD measures, maize leaf chlorophyll concentration, maize leaf N concentration, maize leaf red light absorbance, chlorophyll meter reading on maize leaf, SPAD observations
- Copyright
- © 2015 Adhikari et al.
- Licence
- This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, reproduction and adaptation in any medium and for any purpose provided that it is properly attributed. For attribution, the original author(s), title, publication source (PeerJ PrePrints) and either DOI or URL of the article must be cited.
- Cite this article
- 2015. Frequency distribution and mean comparisons of red light absorbance-transmittance of the e1 leaf sectors of five pipeline maize hybrids during early grain filling in subtropical winter. PeerJ PrePrints 3:e1468v1 https://doi.org/10.7287/peerj.preprints.1468v1
Abstract
Background: Crop scientist’s curiosities were to examine variation in photosynthetic sectors of grain filler leaf or flag leaf of any major crop species. Crop scientists including plant breeders too will be privileged from the findings. So it includes such precision evaluation of single cross pipeline hybrids of yellow maize before their release as cultivars. Materials and methods: For it, five pipeline hybrids were examined from two trials of RCBD trial that they were in a big research plot with uniform soil fertility level and with the same control environment. Each of the trials was conducted planting the seeds of the fifteen newly bred separate hybrids on October 3, 2012 exposing their flowering and early grain filling to the natural winter in the subtropical region in Nepal. Five plants of the pipeline hybrids of the fifteen plots of three replications were randomly selected and tagged from each of the fifteen plots of the five hybrids before tassel emergence. After about one month of anthesis, one hundred observations of red light absorbance-transmittance (RAT) measures were taken from chlorophyll meter ‘SPAD 502’ (Soil Plant Analysis Development) from the just-above-ear (e1) leaf of each of the selected plants of the hybrids in three days from 99 to 101 days after sowing (DAS). Results and discussion: From analysis of frequency distribution of the RAT SPAD measures of the e1 leaf sectors, it is not necessary that hybrids that demonstrates curve with high kurtosis always yield higher. Among the five hybrids, second highest grain yielding hybrid 112 had least leaf sectors of very low RAT SPAD measures. Besides, the hybrid 112 has been found least skewed and least peaked among the five hybrids. Furthermore, the hybrid 112 displayed least coefficient of variation and standard deviation among the 1500 RAT SPAD readings of its e1 leaf sectors. From the mean analysis through DMRT (Duncan Multiple Range Test), the twenty four averages have been found almost non-significant different among themselves inside each of the five hybrids. Single reading and four reading averages were non-significant different to one hundred reading average of each of the fifteen selected plants. Besides, the study also implies that a single reading from a leaf in the surrounding region of the topmost ear in five randomly selected plants can suffice to reflect the average SPAD measure of the particular leaf if the readings are from the e1 leaf. But, it can also be concluded that the similar non-significant nature of average central leaves around the top ear node. The mean comparison also gives useful information about the methodology of taking SPAD observations and how many readings are enough for the study of red light absorbance-transmittance, chl and N concentration in maize leaves. It also includes explanation why the e1 leaf is taken in the study.
Author Comment
This is the part of PhD dissertation of the first author Dr. N R Adhikari.