Abstract

Fourier transform infrared spectroscopy (FTIR) spectroscopy detects functional groups such as vibrational bands like N-H, O-H, C-H, C = O (ester, amine, ketone, aldehyde), C = C, C = N (vibrational modes of a tetrapyrrole ring) and simply C = N. The FTIR of these bands is fundamental to the investigation of the effect of biochar (BC) treatment on structural changes in the chlorophyll molecules of both plants that were tested. For this, dried leaf of Spinacia oleracia (spinach) and Trigonella corniculata (fenugreek) were selected for FTIR spectral study of chlorophyll associated functional groups. The study’s primary goal was to investigate the silent features of infrared (IR) spectra of dried leave samples. The data obtained from the current study also shows that leaf chlorophyll can mask or suppress other molecules’ FITR bands, including proteins. In addition, the C = O bands with Mg and the C9 ketonic group of chlorophyll are observed as peaks at1600 (0%BC), 1650 (3%BC) and 1640, or near to1700 (5%BC) in spinach samples. In fenugreek, additional effects are observed in the FTIR spectra of chlorophyll at the major groups of C = C, C = O and C9 of the ketonic groups, and the vibrational bands are more evident at C-H and N-H of the tetrapyrrole ring. It is concluded that C-N bands are more visible in 5% BC treated spinach and fenugreek than in all other treatments. These types of spectra are useful in detecting changes or visibility of functional groups, which are very helpful in supporting biochemical data such as an increase in protein can be detected by more visibility of C-N bands in FTIR spectra.

Highlights

  • Environmental pollution is a serious hazard for all living things on earth

  • We have focused on the characteristic peaks of chlorophyll molecules to assess the effects of various BC amounts on the growth of two different plants by treating the contaminated soil with BC

  • C = O with Mg and the C9 ketonic group of chlorophyll are observed at peaks of 1600 cm-1 (0% BC), 1650 cm-1 (3% BC) and 1640 cm-1 or near about 1700 cm-1 (5% BC) in spinach samples

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Summary

Introduction

Environmental pollution is a serious hazard for all living things on earth. Many diseases in living organisms are either caused or exacerbated by environmental pollutants [1]. The growth of many vegetables includes the use of highly polluted water that contains high levels of one or more heavy metals such as cadmium (Cd), lead (Pb), arsenic (As) and mercury (Hg). These pollutants are taken up by plants and eventually negatively impact many metabolic processes like photosynthesis, respiration, transportation, and nitrogen metabolism [2,3,4,5,6,7,8,9]. Two basic chlorophylls (chlorophyll a and chlorophyll b) are involved in photosynthesis light reaction Any alteration to their structure can inhibit the whole photosynthesis process [11, 12]. Food quality is improved through BC treatment [23,24,25,26,27]

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