TY  - BOOK
AU  - Limisha N P
AU  - Rajasree G (Guide)
TI  - Organic nutrition in taro (Colocasia esculenta (L.) Schott)
U1  - 630 
PY  - 2022///
CY  - Vellayani
PB  - Department of Agronomy, College of Agriculture
KW  - Agronomy
KW  - Colocasia esculenta
KW  - Taro
KW  - Pot culture
N1  - Ph D
N2  - The study entitled “Organic nutrition in taro (Colocasia esculenta (L.) Schott)” 
was conducted at College of Agriculture, Vellayani, Thiruvananthapuram, Kerala to 
investigate the effect of organic nutrition on growth, yield, quality, soil organic carbon 
build up and economics of cultivation of taro and to study rooting and tuberisation pattern 
of taro under organic nutrition. The experiment was conducted in the farmer’s field at
Peringamala, Thiruvananthapuram from June 2019 to January 2020 and June 2020 to 
January 2021. 
The investigation comprised two separate experiments: (1) Organic nutrition in 
taro (field experiment) and (2) Rooting and tuberisation pattern study in taro (pot 
culture). The first experiment was laid out in randomized block design with three 
replications. The treatments comprised six organic sources (s1- FYM + wood ash; s2- 
FYM + wood ash +PGPR mix I; s3- FYM + wood ash + PGPR mix I + vermiwash; s4- 
poultry manure + wood ash ; s5- poultry manure + wood ash + PGPR mix I; s6- poultry
manure + wood ash + PGPR mix I + vermiwash) and two in situ green manuring (g1- in 
situ green manuring with cowpea; g2- in situ green manuring with daincha) with three 
controls (C1- nutrient management through chemical fertilizers as per KAU POP (80 : 
25: 100 kg ha-1
); C2 - nutrient management as per KAU organic POP (Ad hoc); C3 -
absolute control). The tuberization study was laid out as completely randomized design
as pot culture with the six organic sources (s1 to s6 used in field experiment) as treatments 
(T1 to T6) together with three controls, and were replicated thrice. The recommended 
dose of NPK for colocasia @ 80: 25: 100 kg ha-1 was applied through organic sources on 
N equivalent basis as per the treatments.
Application of FYM + wood ash +PGPR mix I (s2) took less number of days 
(24.33 days) for 50 per cent sprouting of seed corm during first year. Application of 
poultry manure along with wood ash, PGPR mix I and vermiwash (s6) and in situ green 
manuring with daincha (g2) found superior with respect to growth characters such as
plant height, number of leaves per plant, leaf area and leaf area index (LAI). The 
interaction s6g2 recorded taller plants, higher leaf area and LAI during both the years.
Taller plants were produced by s6g2 at 4 MAP and s6g1 at harvest compared to C1 (151.48 
cm) during first year. Organic treatments performed better than C2 and C3 with respect to
all growth parameters.
FYM + wood ash and poultry manure + wood ash recorded the highest number of 
cormels per plant during first and second year respectively. Mean weight of cormel was 
higher in s6 (34.86 g) during first year and in s3 (26.01 g) during second year. The 
application of poultry manure along with wood ash, PGPR mix I and vermiwash (s6) 
recorded the highest cormel yield (18.68 t ha-1
) and corm yield (12.21 t ha-1
) under 
pooled analysis. Organic treatment s5 recorded the highest cormel to corm ratio (1.80) 
during second year. In situ green manuring with daincha (g2) recorded the highest mean 
cormel weight during both the years while cormel and corm yield in pooled analysis were 
also the highest with this treatment. The treatment s3g2 recorded the highest mean weight 
of cormel and the treatment s6g2 recorded the highest cormel yield under pooled analysis 
(19.02 t ha-1
). The treatment s5g1 registered the highest cormel to corm ratio during 
second year. The organic treatments s3g2, s5g1, s5g2, s6g1 and s6g2 were found to be equally 
effective as C1 in case of corm and cormel yield of taro. The treatment s6g2 recorded a 
0.90 percentage increase of cormel yield over chemical nutrient management during first 
year and a 2.67 percentage increase of corm yield over chemical nutrient management for 
pooled mean. The treatment combinations s3g2, s5g1, s5g2, s6g1 and s6g2 were found 
superior to C2 in case of corm yield, cormel yield and mean cormel weight. The 
treatment s6g2 recorded a 37.83 percentage and 27.82 percentage increase of cormel yield 
and corm yield respectively over KAU organic POP for pooled mean. The treatments
s3g2, s4g2, s6g1 and s6g2 during first year and s3g2, s5g2 and s6g2 during second year 
recorded significantly higher mean weight of cormel than C3. All the treatment
combinations in case of corm yield and all the treatment combinations except s1g1 in case 
of cormel yield recorded significantly higher value than C3. During second year, the 
treatments s5g1 and s2g2 recorded the highest harvest index (0.60) and were significantly 
superior to C2 (0.47). 
The organic source s6 and in situ green manuring g2 recorded the highest dry 
matter production (DMP). Treatment combination s6g2 (8.37 t ha-1
) during first year and 
s3g2 (6.55 t ha-1
) during second year recorded the highest DMP. Except s1g1, s1g2 and s4g2, 
all other treatment combinations resulted in significantly higher DMP compared to C2. 
All organic treatments were significantly superior to C3 with respect to DMP during both 
the years. The organic source s6 and in situ green manuring g2 were found superior in 
improving quality characters of cormel. 
The higher N and K content and uptake were noticed in organic source s6, while P 
uptake was higher in s3. In situ green manuring g2 resulted in higher NPK contents and 
uptake. The highest N (149.03 kg ha-1
) and K (232.80 kg ha-1
) uptakes were recorded 
with treatment combination s6g2 during second year. During first year, the treatment s3g2
recorded the highest tuber P content and P uptake (35.12 kg ha-1
). The treatment
combination s6g2 was significantly superior to C1 in case of K uptake during first year. 
The treatment combinations s2g1, s2g2, s3g1, s3g2, s5g1, s5g2, s6g1 and s6g2 were found 
superior to C2 in nutrient content and uptake. The organic treatments were superior to 
absolute control in nutrient contents and uptake. 
The organic source s5 recorded the lowest EC during second year. The organic 
sources s5 and s6 resulted in higher organic carbon and available N content in soil while 
available P content of soil was the highest with s3. In situ green manuring with daincha
found superior in organic carbon, available N and available P content of soil. Available N 
content in soil was the highest in s6g2 during first year. The treatments s2g2 and s3g2 were 
found to be significantly superior to C1 and C2 during second year with respect to
available P status. The organic treatments were found superior to C3 in case of pH, 
organic carbon and available NPK. The organic sources s5, s3, s6 and in situ green 
manuring g2 resulted in higher total organic carbon and recalcitrant carbon, labile carbon 
and water soluble carbon content of soil. All organic nutrition treatments were found 
superior to control treatments in soil organic carbon buildup. Balance sheet of K was 
positive for s3g1, s5g1, s6g1, s6g2 and C1 after first year of experiment and the N balance 
was positive for absolute control after second year.
The organic source s6 and in situ green manuring g2 registered the highest net 
income and BCR. Treatment combination s6g2 resulted in the highest net income 
(₹737241 ha-1
) and BCR (2.82). All the treatments except s1g1 and s2g1 recorded higher 
net income and the treatments s4g1, s5g1, s6g1 and s6g2 resulted in higher BCR than C1. The 
treatment s6g2 recorded a 43.96 percentage and 6.02 percentage increase of net income 
and BCR respectively over chemical nutrient management for mean. All treatment
combinations except s1g1 and s2g1 recorded higher net income and all except s1g1, s2g1 
and s3g1 recorded higher BCR compared to C2. The treatment s6g2 recorded a 54.71 
percentage and 19.49 percentage increase of net income and BCR respectively over KAU 
organic POP for mean. All organic nutrition treatments recorded higher net income and 
all treatments except s2g1 and s3g1 recorded higher BCR compared to absolute control.
In pot culture study, the treatments T6 and T5 in case of pH, absolute control in 
case of EC, T2 and T3 in case of organic carbon and available P and T6 and C1 in case of 
available N and K were found superior throughout the growing period. The higher 
microbial population was observed with organic sources T6, T5, T3 and T2. The organic 
sources T5 and T3 recorded the highest dehydrogenase activity. The treatments T6, T3 and 
T5 excelled in rooting pattern and root anatomical characters. Significant and positive 
correlation was observed between nutrient uptake and root apex diameter, late metaxylem 
number, early metaxylem number and stele diameter. Corm initiation was early (between 
1 MAP and 2 MAP) in treatments C1 and T6 while it was between 2 MAP and 3 MAP in 
all other treatments. Control C1 and T6 recorded the highest corm and cormel weight per 
plant during initial stages and later stages respectively. The highest values of cormel 
bulking rate were observed between 3 MAP and 4 MAP. The treatment T6 recorded the 
highest bulking rate during 3-4 MAP, T3 and T5 during 4-5 MAP and T2 during 5-6 MAP. 
The study revealed that application of poultry manure, wood ash, PGPR mix I and 
vermiwash, along with in situ green manuring of daincha in taro resulted in higher 
growth, yield, quality, net returns and BCR under organic nutrition and hence can be 
recommended for its organic nutrient management. All the organic nutrient management 
practices were found to improve soil organic carbon build up. Application of poultry 
manure, wood ash, PGPR mix I and vermiwash as organic sources was also found to 
promote the rooting and tuberisation in taro
UR  - https://krishikosh.egranth.ac.in/handle/1/5810190729
ER  -