TY  - BOOK
AU  - Ananthu C M
AU  - Naveen Leno (Guide)
TI  - Rhizophere dynamics of thermochemical organic fertilizer fortified with nitrogen biosources in amaranthus
U1  - 631.4 
PY  - 2022///
CY  - Vellayani
PB  - Department of Soil and Agricultural Chemistry, College of Agriculture
KW  - Soil and Agricultural Chemistry
N1  - MSc
N2  - A study entitled “Rhizosphere dynamics of thermochemical organic 
fertiliser fortified with nitrogen biosources in amaranthus” was conducted from 
December 2020 to August 2021 at the Department of Soil Science and Agricultural 
Chemistry, College of Agriculture, Vellayani with the objectives of studying the 
dynamics of physicochemical and biological soil health parameters of the 
rhizosphere against root free soil consequent to the application of thermochemical 
organic fertiliser fortified with various organic nitrogen sources with and without 
arbuscular mycorrhizal fungi (AMF) and evaluation of its influence on the growth 
and yield of amaranthus.
Characterization of farm yard manure (FYM), poultry manure (PM), neem cake 
(NC), vermicompost (VC), coir pith compost (CPC), organic nano NPK (nano NPK), and 
thermochemical organic fertiliser (TOF) were carried out. The pH of manures was slightly 
acidic to neutral, and the EC was within safe ranges. TOF had the highest TOC. PM recorded 
the highest N and nano NPK recorded significantly higher P and K. Zn, Cu and B were also 
the highest in nano NPK. TOF had higher Ca, Mg, S, Fe, Mn. Heavy metals (Pb, Cd) were 
below detectable limits.
A pot culture trial of Amaranthus (var. Arun) was done to study the dynamics 
of the physicochemical and biological soil health parameters of the rhizosphere as 
against root free soil. Potting mixture was prepared with soil, coir pith (CP) and TOF 
fortified with nitrogen bio sources so as to provide 1 per cent nitrogen and also 
fortified with organic nano NPK at 0.1 per cent N in the ratio 1:1:1 on volume basis. 
TOF was fortified with different organic nitrogen sources for a pot culture study for 
30 days in a CRD experiment. The pH of the growing media decreased slightly at 
harvest, whereas EC increased. Carbon fractions and nitrogen fractions were highest 
in TOF+PM +AMF while there was a general decrease in both the parameters in all 
the treatments at the harvest stage compared to the initial. P, K, Ca, S, Zn, B content 
were higher in TOF+NPK +AMF whereas Mg and Cu were higher in TOF+PM 
+AMF. Fe and Mn remained significantly different at rhizosphere zone only. In all the
treatments rhizosphere soil observed lower soil nutrient content than the bulk soil. 
Biological properties such as dehydrogenase activity, microbial biomass carbon, 
175
indole acetic acid, total organic acids were higher in TOF+PM +AMF. The shoot and 
root nutrient contents of TOF+NPK+AMF were higher than other treatments. 
TOF+NPK+AMF was also superior in number of primary branches, shoot weight and 
shoot dry matter content. Plant height was higher in TOF+FYM+AMF whereas stem 
girth was higher in TOF+NC. TOF+VC+AMF recorded highest root weight (104.07g 
plant-1
), root dry weight (13.01plant-1
) whereas root volume (63.33cm3
), total root 
length (31.66 cm) was highest with TOF+CPC+AMF.
Three best treatments from the pot culture study were subjected to field testing in 
micro plots to evaluate the influence of the fortified TOF on the soil health and growth and 
yield of amaranthus (var. Arun) for two seasons (C1, C2) in RBD. Field soil had strongly 
acidic pH, safe EC, medium OC, low N, K, high P, inadequate Ca, Mg, S and B. After the 
harvest of each crop, the soil pH progressively decreased whereas EC and OC increased. Soil 
available nitrogen was higher in TOF+NPK+AMF@OPOP100 %. P, K, S, Fe, Cu and B 
contents were highest in TOF+NPK+AMF@OPOP100 %. Soil available Ca and Mg was on 
par with TOF+VC@OPOP100 % in C2. Mn and Zn in C2 was higher in 
TOF+NPK+AMF@OPOP100 %. Plant shoot N, P, K, Ca, Mg, S and micronutrients were the 
highest in TOF+NPK+AMF@OPOP100 %. At C2 shoot Ca was on par with 
TOF+VC@OPOP100 %. Root N, P, K, Ca, Mg, S and micronutrients were highest in 
TOF+NPK+AMF@OPOP100 %. TOF+NC+AMF@OPOP100 % recorded highest root N in C2. 
TOF+VC@OPOP100 % recorded the highest earthworm number in C1 and C2. Micro 
arthropod counts were the highest in TOF+NPK+AMF@OPOP100 %. Dehydrogenase activity 
and microbial biomass carbon (MBC) of TOF+NPK+AMF@OPOP100 % in C1and C2 were 
significantly higher than other treatments. B:C ratio was highest for 
TOF+NPK+AMF@OPOP100 % (1.57).
TOF fortified with various nitrogen bio-sources enhanced soil organic carbon and 
possessed comparable fertility value as conventional organic manures and is environmentally 
safe since heavy metal content is below detectable levels. Fortification of thermochemical 
organic fertilizer facilitated efficient root dynamic characters coupled with proliferation of 
rhizospheric microorganisms, which favoured enhanced mineralisation of soil available 
nutrients and root nutrient acquisition. TOF fortified with nano NPK is an effective and 
efficient substitute for conventional organic manures and help in realising higher productivity 
and profitability in amaranthus
UR  - https://krishikosh.egranth.ac.in/handle/1/5810208611
ER  -