PROTEIN AND NITROGEN VARIABILITY IN PLANT BIOMASS: IMPLICATIONS FOR CHELATE BIOFERTILIZER FORMULATION USING THE KJELDAHL METHOD

Авторы

  • Avazyazov Muhammad Akbarovich Автор
  • Ashirov Mansur Allanazarovich Автор

Ключевые слова:

Keywords: Kjeldahl method, protein quantification, nitrogen content, plant biomass, non-protein nitrogen (NPN), amino acid variability, conversion factor, biofertilizers, sustainable agriculture, nutrient uptake

Аннотация

Abstract 
  Accurate  protein  quantification  in  plant  biomass  is  essential  for  developing 
effective chelate biofertilizers, as amino acids serve as key chelating agents. This study 
employed the Kjeldahl method to determine the protein content in the leaves of tomato 
(Solanum lycopersicum) and alfalfa (Medicago sativa). The methodology involved the 
conversion of organic nitrogen to ammonium sulfate, followed by titration, to estimate 
total nitrogen content. Results indicated average protein contents of 9.198% for tomato 
and 28.45% for alfalfa, with minimal deviation in experimental precision. The study 
also  highlighted  the  challenges  posed  by  non-protein  nitrogen  and  amino  acid 
variability  in  protein  quantification.  These  findings  provide  valuable  data  for 
optimizing chelate biofertilizer formulations, contributing to improved nutrient uptake 
and sustainable agricultural practices. 

Библиографические ссылки

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Опубликован

2024-10-02

Как цитировать

Avazyazov Muhammad Akbarovich, & Ashirov Mansur Allanazarovich. (2024). PROTEIN AND NITROGEN VARIABILITY IN PLANT BIOMASS: IMPLICATIONS FOR CHELATE BIOFERTILIZER FORMULATION USING THE KJELDAHL METHOD . TADQIQOTLAR.UZ, 47(1), 113-117. https://ilmiyxabarlar.uz/tad/article/view/1790