Expression of Quantitative and Qualitative Traits in Potato (Solanum tuberosum L.) Grown through Organic Production Intervention in Eastern Indian Plateau

Sucharita Ghoshal and Avijit Kr. Dutta*

School of Agriculture and Rural Development, Faculty of Agriculture, Rural and Tribal Development, Ramakrishna Mission Vivekananda Educational and Research Institute, Ranchi Campus, Jharkhand, India.

Corresponding Author E-mail: avijitkumardutta@gmail.com

DOI : http://dx.doi.org/10.12944/CARJ.11.2.12

Article Publishing History

Received: 26 Jun 2023
Accepted: 14 Aug 2023
Published Online: 22 Aug 2023

Review Details

Plagiarism Check: Yes
Reviewed by: Dr. K. Vignesh
Second Review by: Dr. Suresh R. Jambagi
Final Approval by: Dr. Aristidis Matsoukis

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Abstract:

The investigation was conducted during two consecutive rabi seasons of 2019-20 and 2020-21 at the Organic Experimental Farm of Ranchi campus of the university by employing eight traditionally grown potato varieties of the region viz., V1 (Kufri Jyoti), V2 (Siwan), V3 (C-40), V4 (2236), V5 (Ultimatum), V6 (Sathi), V7 (Lal Gulab) and V8 (Nainital). They were grown independently through four organic growing conditions namely, C1 (Conventional Farming) where only Farm Yard Manure (FYM) @ 10 t.ha-1 was applied, C2 (Bulky Organic Manure) where along with the FYM @ 10 t.ha-1, vermicompost @ 20 tha-1 was applied, C3 (Vivek Krishi) where along with the FYM @ 10 t.ha-1, enriched Sanjeevani (10%) was applied, and C4 (Absolute Control) where no organic input was used. Four separate field experiments based upon the predesigned growing conditions were intended by adopting Completely Randomized Block Design (CRBD) experimental design by assigning thrice replication of each of the eight varieties of the crop. Different growth and yield attributes along with the quality contributing traits were studied and found to be highly influenced by different organic growing conditions. Most of the studied growth and yield attributing traits of potato were highly influenced by the growing condition (C2) where along with the FYM @ 10 t.ha-1, Vermicompost @ 20 t.ha-1 was applied resulting higher yield (34.13 tha-1) as estimated in V4 (2236). However, almost all quality attributing traits were highly influenced by the growing condition (C3) ensuing higher starch content (31.86% in V6) where along with the FYM @ 10 t.ha-1 a liquid organic formulation Enriched Sanjeevani (10%) was applied. The study revealed that potato is highly responsive to different organic growing conditions especially bulky organic manure (vermicompost) for higher yield and Vivek Krishi for proximate quality traits expression under the organic growing condition of the south Chhota Nagpur region of the eastern Indian plateau.

Keywords:

Potato; Proximate Quality; Sanjeevani; Vermicompost; Yield.

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Ghoshal S, Dutta A. K. Expression of Quantitative and Qualitative Traits in Potato (Solanum tuberosum L.) Grown through Organic Production Intervention in Eastern Indian Plateau. Curr Agri Res 2023; 11(2). doi : http://dx.doi.org/10.12944/CARJ.11.2.12

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Ghoshal S, Dutta A. K. Expression of Quantitative and Qualitative Traits in Potato (Solanum tuberosum L.) Grown through Organic Production Intervention in Eastern Indian Plateau. Curr Agri Res 2023; 11(2). Available from: https://bit.ly/3P8XLdI


Introduction

Potato (Solanum tuberosum L.) is one of the most important non-grain food crops in the world. It is usually described as the king of vegetables of the family Solanaceae and extensively grown all over the world.1 Potato is believed to have its roots in the Andean regions of South America, where it has been recognized as the main staple food for at least 8,000 years.2 Vegetable farming, particularly potato growing is regarded as one of the most important sources of food security and revenue generation among rural communities of eastern Indian plateau and its production in our country exceeded 53 million metric ton in 2022. Though conventional chemical farming produces a greater and more consistent yield of potatoes, but it is also an expensive practice, thus small, and marginal farmers find it difficult to afford for growing the crop in this manner, whereas the inputs generally used for organic farming practices are quite cheaper or may easily be produced even by the resource poor farmers. Potato is a chemically intensive crop that harms soil fertility and the tuber quality, therefore, supplementing the nutrient through organic sources has become essential to sustain production over time and to maintain soil health. The application of bulky organic manures, specially vermicompost, plays an important role in potato cultivation.3 It significantly influences different yield attributes of potatoes like plant height, number of stems per hill, average tuber weight, bulking ratio, total yield and so on. Vermicompost also has a significant influence on different quality attributes of potatoes namely specific gravity, tuber dry weight, ascorbic acid content, etc. The organically produced liquid manures (like Sanjeevani) can increase the productivity and profitability of potatoes.4-5 Such an organic formulation explicitly Enriched Sanjeevani, a liquid organic formulation that makes the soil lifetime fertile. A relevant research work in this particular context demonstrated that Enriched Sanjeevani prepared by mixing cow dung: cow urine: water at 1:1:10 proportions along with one handful of garden soil and 50 g of molasses for each kilogram of cow dung has great potential to enhance yield and proximate quality trait expressions in brinjal.6 Considering all the above-mentioned valuable aspects, the present investigation was conducted to evaluate yield and quality contributing attributes of potato under non-chemical growing conditions in eastern Indian plateau.

Materials and Methods

The details of materials and methodology followed in the present investigation have been accentuated through the following sub-sections:

Experimental site and design

The experiment was conducted in an organic experimental plot of Ramakrishna Mission Vivekananda Educational and Research Institute, Morabadi, Ranchi during the two consecutive rabi seasons of 2019-20 (Year-I) and 2020-21 (Year-II). Completely Randomized Block Design (CRBD) was adopted in conducting field experiments separately under four (4) organic growing conditions employing eight (8) varieties with their thrice replication. Finally, ninety-six (24 plots for each of the four growing conditions) experimental plots each of with 2.7 m x 2.0 m sizes (5.40 m2) were used for performing the experiment.

Details of varieties and experimental condition

Eight commonly grown potato varieties, namely V1: Kufri Jyoti; V2: Siwan; V3: C-40; V4: 2236: V5: Ultimatum; V6: Sathi; V7: Lal Gulab; and V8: Nainital were subjected to grow independently under four organic growing conditions, viz. C1: Conventional Farming [where only FYM @ 10 tha-1 was applied as basal dose 7 days before planting]; C2: Bulky Organic Manure [where along with FYM @ 10 tha-1, vermicompost @ 20 tha-1 was applied twice, one with ½ quantity of vermicompost along with FYM as basal application before 7 days of planting and remaining ½ as a split application at 45 days after planting (DAP)]; C3: Vivek Krishi [where along with FYM @ 10 tha-1 as basal application 7 days before planting, enriched Sanjeevani @ 10% was applied twice as soil drenching split application one at 15 DAP and another at 45 DAP]; and C4: Absolute Control [where no input was applied and thereby considered organic by default].

Seed treatment and spacing

Seed tubers were treated with Trichoderma viride @5g.kg-1 before sowing them at 45 cm inter row and 20 cm intra row spacing in the experimental plots.

Organic plant protection measures

Whey water mixed with turmeric powder @10g.litre-1 was applied four times starting from 15 DAP at 15 days interval as prophylactic measures against pathogenic infections and Dashparni (a botanical preparation of ten herbs/shrubs those are not generally preferred by cattle or even wild animals) @10% and neem oil @ 0.3% alternately applied four times at fortnightly interval starting from 21 DAP as a precautionary measure against different sucking and chewing pests.

Observations recorded and data analyses

Different growth and yield attributes of potato viz. plant height (at harvest) (cm), number of tubers per plant, average tuber weight (g), bulking ratio and total yield (t. ha 1) were taken time to time. Similarly, several quality attributes like Total Soluble Solids (TSS in %), dry weight of the tuber (%), total sugar content (%) by the Anthrone method, the ascorbic acid (mg.100g-1) content of tuber as determined by the dye titration method7 and starch content (%) of tuber as assessed by using Anthrone method8 were estimated for evaluation of the crop varieties under different organic growing conditions. Data thus obtained were subjected to statistical analysis by the Analysis of Variance (ANOVA) method9 and the significance of different sources of variations was tested by Error Mean Square by Fisher and Snedecor’s ‘F’ test at 0.05 probability level. For determination of critical differences at the 5% level of significance, Fisher and Yates’ table was consulted. The comparison among different varieties was addressed by using the Duncan’s Multiple Range Test (DMRT)10 alongside CD0.05.  All cases the interpretation was based upon the pooled mean values of the both years’ data.

Results

The findings of the experiment regarding yield as well as quality contributing traits have been categorically represented as per the following:

Growth and yield attributes

The results illustrated that almost all the yield attributes were greatly influenced by the intervention of different organically designed treatments with statistically significant (P≤0.05) difference among different varieties. In this context, highest plant height at harvest (64.08 cm) was recorded in V6 (Sathi) under C1 (conventional farming) growing condition, whereas the lowest plant height (33.59 cm) was recorded in V7 (Lal Gulab) under C4 (absolute control) growing condition where no organic input was applied (Table 1).

Table 1: Per se performance on plant height (cm) of different potato varieties as influenced by different organically designed treatments

Variety Growing Condition
C1 C2 C3 C4
Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean
V1 57.67 55.77 56.72b 60.60 58.58 59.59d 57.40 61.30 59.35d 35.70 31.56 33.63d
V2 62.45 58.49 60.47ab 57.90 55.88 56.89e 61.23 57.19 59.21d 34.90 32.82 33.86cd
V3 59.85 62.81 61.33a 64.50 62.38 63.44ab 65.30 63.28 64.29a 35.20 33.16 34.18c
V4 61.10 65.04 63.07a 59.00 62.90 60.95c 56.60 59.40 58.00f 36.20 34.18 35.19a
V5 58.66 62.60 60.63a 65.90 62.24 64.07a 59.80 57.64 58.72e 35.00 33.70 34.35bc
V6 63.10 65.06 64.08a 58.88 62.72 60.80c 64.95 62.73 63.84b 36.27 33.17 34.72b
V7 64.60 62.58 63.59a 63.50 61.42 62.46b 64.8 62.76 63.78b 34.60 32.58 33.59d
V8 59.74 63.76 61.75a 63.97 61.57 62.77b 59.87 63.63 61.75c 35.25 32.43 33.84cd
SEm (±) 1.76 0.88 1.80 1.90 1.28 0.50 1.63 1.43 0.19 1.06 1.10 0.18
CD(P≤0.05) 3.77 1.89 3.86 4.07 2.74 1.08 3.49 3.06 0.41 NS NS 0.38
CV (%) 13.09 7.06 9.07 14.78 9.13 8.00 12.00 10.09 9.17 12.78 14.79 4.19

Note: NS: Non-significant, C1: Conventional Farming, C2: Bulky Organic Manure, C3: Vivek Krishi, C4: Absolute Control (Inherent Fertility Status of Experimental Soil); V1: Kufri Jyoti, V2: Siwan, V3: C-40, V4: 2236, V5: Ultimatum, V6: Sathi, V7: Lal Gulab, and V8: Nainital. In each column with letters next to a pooled mean, entries with different letters indicate significant differences as regards to different potato varieties at P = 0.05 by Duncan’s Multiple Range Test.

In case of number of tubers per plant under C1  and C4 growing conditions no statistical difference observed among the varieties but in remaining two growing conditions statistically significant (P≤0.05) difference among varieties was recorded and consequently maximum number of tubers per plant (5.33) was observed in V3[C-40] and V7 [2236] under C3 (Vivek Krishi) experimental condition, whereas, the minimum number of tubers per plant was observed in V2 (Siwan) and V8 (Nainital) varieties under C4 (absolute control) growing condition, where no organic intervention was given for the cultivation of potato (Table 2).

Table 2: Per se performance on number of tubers. plant-1 of different potato varieties as influenced by different organically designed treatments

Variety Growing Condition
C1 C2 C3 C4
Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean
V1 3.55 5.51 4.53 5.50 3.44 4.47b 3.56 5.5 4.53d 4.35 2.19 3.27
V2 5.20 3.34 4.27 3.32 5.22 4.27c 6.00 4.40 5.20ab 4.50 1.76 3.13
V3 5.10 3.04 4.07 5.90 3.84 4.87a 5.50 5.16 5.33a 2.21 4.19 3.20
V4 6.50 2.44 4.47 3.45 5.21 4.33bc 4.90 5.36 5.13b 2.75 3.91 3.33
V5 5.25 3.55 4.40 5.90 3.84 4.87a 3.76 5.44 4.60cd 3.33 3.73 3.53
V6 5.30 3.10 4.20 3.87 5.59 4.73a 3.27 6.19 4.73c 4.46 2.48 3.47
V7 5.50 3.44 4.47 5.20 3.06 4.13c 5.52 5.14 5.33a 4.14 2.66 3.40
V8 5.05 4.15 4.60 5.80 3.66 4.73a 5.24 5.16 5.20ab 3.42 2.84 3.13
SEm (±) 0.54 0.70 0.27 0.50 0.81 0.09 0.37 0.35 0.08 0.50 0.51 0.23
CD(P≤0.05) 1.15 1.51 NS 1.08 1.73 0.20 0.78 0.75 0.16 1.08 1.10 NS
CV (%) 15.33 30.02 24.04 15.67 29.00 27.33 11.67 10.04 18.33 20.03 26.33 32.11

Note: NS: Non-significant, C1: Conventional Farming, C2: Bulky Organic Manure, C3: Vivek Krishi, C4: Absolute Control (Inherent Fertility Status of Experimental Soil); V1: Kufri Jyoti, V2: Siwan, V3: C-40, V4: 2236, V5: Ultimatum, V6: Sathi, V7: Lal Gulab, and V8: Nainital. In each column with letters next to a pooled mean, entries with different letters indicate significant differences as regards to different potato varieties at P = 0.05 by Duncan’s Multiple Range Test.

For average tuber weight, the highest average tuber weight (159.53g) was documented in V3 [C-40] under C2 (bulky organic manure) growing conditions, while the lowest average tuber weight was documented in V1 [Kufri Jyoti] under C4 (absolute condition) experimental condition (Table 3).

In case of bulking ratio, it was documented that V8 (Nainital) recorded highest bulking ratio (19.33) under C2 (bulky organic manure) growing conditions, whereas V2 (Siwan) recorded lowest bulking ratio (1.37) under C4 (absolute control) growing condition (Table 4).

Highest yield (34.13 t. ha-1) was observed in V4 [2236] under C2 (bulky organic manure) experimental condition, whereas the low yield (2.30 t. ha-1) was found in V1[Kufri Jyoti] under C4 (absolute control) growing conditions (Table 5).

Table 3: Per se performance on average tuber weight (g) of different potato varieties as influenced by different organically designed treatments

Variety Growing Condition
C1 C2 C3 C4
Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean
V1 87.52 86.22 86.87f 149.53 145.93 147.73d 123.21 119.99 121.60e 83.27 76.91 80.09d
V2 94.43 91.97 93.20e 155.42 148.72 152.07b 126.35 125.25 125.80d 85.43 77.53 81.48c
V3 103.21 105.45 104.33d 161.27 157.79 159.53a 122.35 126.19 124.27d 87.56 84.44 86.00bc
V4 120.24 110.02 115.13c 148.46 151.54 150.00bc 135.21 130.79 133.00b 85.29 88.45 86.87ab
V5 129.30 125.50 127.40b 145.32 139.62 142.47e 130.47 129.39 129.93c 88.47 84.39 86.43abc
V6 127.32 124.94 126.13b 150.01 148.13 149.07cd 135.86 133.60 134.73ab 86.26 84.18 85.22bc
V7 124.55 131.05 127.80b 151.06 147.34 149.20cd 136.24 133.76 135.00a 89.37 85.53 87.45a
V8 134.91 130.69 132.80a 148.35 151.91 150.13bc 127.32 123.88 125.60d 88.57 84.09 86.33abc
SEm (±) 0.61 0.87 1.20 1.30 0.93 1.18 0.76 0.55 0.82 1.06 0.66 0.57
CD(P≤0.05) 1.30 1.87 2.57 2.79 1.99 2.54 1.64 1.17 1.75 2.28 1.42 1.23
CV (%) 2.17 3.08 7.01 3.23 2.97 4.08 2.69 1.87 3.23 5.38 3.09 7.03

Note: NS: Non-significant, C1: Conventional Farming, C2: Bulky Organic Manure, C3: Vivek Krishi, C4: Absolute Control (Inherent Fertility Status of Experimental Soil); V1: Kufri Jyoti, V2: Siwan, V3: C-40, V4: 2236, V5: Ultimatum, V6: Sathi, V7: Lal Gulab, and V8: Nainital. In each column with letters next to a pooled mean, entries with different letters indicate significant differences as regards to different potato varieties at P = 0.05 by Duncan’s Multiple Range Test.

Table 4: Per se performance on bulking ratio of different potato varieties as influenced by different organically designed treatments

Variety Growing Condition
C1 C2 C3 C4
Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean
V1 5.00 3.60 4.30e 11.04 9.16 10.10f 12.23 9.43 10.83c 1.32 1.54 1.43e
V2 7.04 5.18 6.11d 10.50 6.34 8.42g 10.67 5.49 8.08e 1.96 0.78 1.37e
V3 4.30 4.50 4.40e 14.85 12.73 13.79d 11.02 8.62 9.82d 2.77 0.51 1.64e
V4 7.01 6.57 6.79cd 17.05 16.83 16.94c 13.33 12.13 12.73a 3.03 1.49 2.26d
V5 11.21 7.97 9.59a 17.17 16.69 16.93c 14.23 11.69 12.96a 4.30 3.22 3.76b
V6 10.07 8.29 9.18ab 16.48 21.04 18.76b 14.24 10.46 12.35b 5.15 4.79 4.97a
V7 7.98 8.08 8.03bc 13.29 11.09 12.19e 11.29 12.85 12.07b 3.00 1.44 2.22d
V8 8.15 7.43 7.79bc 21.58 17.08 19.33a 9.06 11.06 10.06d 4.04 2.22 3.13c
SEm (±) 0.54 0.49 0.65 0.61 0.74 0.17 0.51 0.55 0.14 0.34 0.26 0.13
CD(P≤0.05) 1.17 1.04 1.39 1.32 1.58 0.36 1.08 1.17 0.30 0.74 0.57 0.29
CV (%) 34.20 34.01 29.80 18.07 24.04 36.11 19.31 24.08 40.60 48.40 57.10 53.70

Note: NS: Non-significant, C1: Conventional Farming, C2: Bulky Organic Manure, C3: Vivek Krishi, C4: Absolute Control (Inherent Fertility Status of Experimental Soil); V1: Kufri Jyoti, V2: Siwan, V3: C-40, V4: 2236, V5: Ultimatum, V6: Sathi, V7: Lal Gulab, and V8: Nainital. In each column with letters next to a pooled mean, entries with different letters indicate significant differences as regards to different potato varieties at P = 0.05 by Duncan’s Multiple Range Test.

Table 5: Per se performance on yield (t. ha-1) of different potato varieties as influenced by different organically designed treatments

Variety

Growing Condition

C1 C2 C3 C4
Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean
V1 5.57 7.65 6.61f 15.26 17.22 16.24g 16.25 18.57 17.41d 1.90 2.70 2.30e
V2 12.87 13.21 13.04ab 20.96 15.32 18.14f 15.97 18.87 17.42d 1.50 4.42

2.96d

V3 12.87 8.19 10.53d 35.54 32.54 34.04a 23.58 24.92 24.25c 3.30 4.80 4.05c
V4 11.08 16.72 13.90a 32.91 35.35 34.13a 23.37 27.93 25.65b 5.15 3.93 4.54b
V5 10.27 13.47 11.87c 24.37 21.37 22.87e 16.27 18.75 17.51d 4.92 5.22 5.07b
V6 13.28 9.56 11.42c 22.76 25.02 23.89d 14.72 16.74 15.73f 5.75 6.91 6.33a
V7 11.00 7.28 9.14e 26.46 27.70 27.08c 25.38 28.28 26.83a 4.30 5.58

4.94b

V8 13.02 12.38 12.70b 30.75 32.31 31.53b 15.22 17.58 16.40e 4.86 5.34 5.10b
SEm (±) 0.35 0.62 0.23 0.71 0.57 0.27 0.71 0.22 0.27 0.49 0.34 0.22
CD(P≤0.05) 0.75 1.33 0.49 1.52 1.22 0.57 1.52 0.48 0.58 1.05 0.72 0.46
CV (%) 14.11 25.05 51.30 12.09 10.00 22.08 17.28 4.73 8.28 44.90 31.07 42.30

Note: NS: Non-significant, C1: Conventional Farming, C2: Bulky Organic Manure, C3: Vivek Krishi, C4: Absolute Control (Inherent Fertility Status of Experimental Soil); V1: Kufri Jyoti, V2: Siwan, V3: C-40, V4: 2236, V5: Ultimatum, V6: Sathi, V7: Lal Gulab, and V8: Nainital. In each column with letters next to a pooled mean, entries with different letters indicate significant differences as regards to different potato varieties at P = 0.05 by Duncan’s Multiple Range Test.

Proximate quality attributes

Different quality contributing traits of potato showed statistically significant (P≤0.05) differences among different varieties. The results revealed that all cases, both C2 (bulky organic manure) and C3 (Vivek Krishi) experimental conditions performed extraordinarily well over remaining two growing conditions. In this context, highest TSS (6.99%) was recorded in V3 [C-40] under C4 (Absolute Control) growing conditions, whereas the lowest TSS (5.14%) was recorded in V7 [Lal Gulab] under C2 (Bulky Organic Manure) growing conditions (Table 6). No significant differences among varieties were observed in terms of expression of this quality attributing trait in the case of Conventional (C1) and Absolute Control (C4) growing conditions.

In case of dry matter content of tuber, non-significant differences were once again recorded under C1 (Conventional farming) and C4 (Absolute control) but in remaining two growing conditions statistically significant difference among varieties were recorded (Table 7). The highest dry weight (25.70%) was recorded in V1 [Kufri Jyoti] under C2 (bulky organic manure) growing condition, while the lowest value (17.77%) was recorded in V1 [Kufri Jyoti] under C1 (Conventional farming condition).

Table 6: Per se performance on TSS (%) content in tubers of different potato varieties as influenced by different organically designed treatments

Variety Growing Condition
C1 C2 C3 C4
Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean
V1 6.09 5.89 5.99 4.53 6.13 5.33bcdf 4.93 6.51 5.72abc 7.95 5.23 6.59
V2 7.03 5.27 6.15 4.87 6.83 5.85bcd 5.92 6.10 6.01ab 6.48 5.56 6.02
V3 5.38 7.00 6.19 6.38 5.64 6.01bc 6.17 6.09 6.13ab 7.02 6.96 6.99
V4 4.32 6.86 5.59 5.50 5.08 5.29df 6.02 4.94 5.48c 6.48 7.28 6.88
V5 6.85 6.05 6.45 5.29 5.09 5.19df 5.93 5.07 5.50c 5.50 5.84 5.67
V6 6.25 5.89 6.07 6.04 4.62 5.33bcdf 5.27 6.27 5.77abc 7.12 6.30 6.71
V7 4.43 6.65 5.54 5.12 5.16 5.14f 5.73 5.13 5.43c 6.06 5.92 5.99
V8 9.40 7.70 8.55 5.97 7.73 6.85a 6.50 5.86 6.18ab 6.96 5.88 6.42
SEm (±) 0.75 0.66 4.85 0.27 0.46 0.32 0.64 0.61 0.23 0.37 0.28 4.03
CD(P≤0.05) 1.61 1.42 NS 0.59 0.99 0.69 NS NS 0.49 0.79 0.60 NS
CV (%) 28.25 26.55 28.25 12.99 20.34 23.73 28.25 27.12 16.95 14.12 11.30 17.51

Note: NS: Non-significant, C1: Conventional Farming, C2: Bulky Organic Manure, C3: Vivek Krishi, C4: Absolute Control (Inherent Fertility Status of Experimental Soil); V1: Kufri Jyoti, V2: Siwan, V3: C-40, V4: 2236, V5: Ultimatum, V6: Sathi, V7: Lal Gulab, and V8: Nainital. In each column with letters next to a pooled mean, entries with different letters indicate significant differences as regards to different potato varieties at P = 0.05 by Duncan’s Multiple Range Test.

Table 7: Per se performance on dry matter content (%) in tubers of different potato varieties as influenced by different organically designed treatments

Variety Growing Condition
C1 C2 C3 C4
Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean
V1 18.65 16.89 17.77 24.97 26.43 25.70a 21.97 22.03 22.00b 20.68 25.06 22.87
V2 20.98 22.88 21.93 20.08 19.12 19.60e 23.43 20.57 22.00b 24.65 21.61 23.13
V3 21.86 22.74 22.30 24.36 22.38 23.37bc 24.97 21.63 23.30a 22.96 19.30 21.13
V4 19.27 22.27 20.77 24.44 22.82 23.63bc 21.97 23.97 22.97a 20.68 19.12 19.90
V5 20.02 19.78 19.90 21.97 19.49 20.73d 20.68 18.92 19.80d 25.86 22.48 24.17
V6 23.47 21.27 22.37 21.96 23.64 22.80bc 19.68 18.26 18.97e 22.96 20.04 21.50
V7 25.35 20.65 23.00 20.57 16.97 18.77e 22.68 19.98 21.33bc 23.86 20.40 22.13
V8 20.97 22.17 21.57 23.97 22.03 23.00bc 19.63 21.91 20.77c 20.85 17.55 19.20
SEm (±) 0.71 0.78 1.95 0.62 0.93 0.39 0.67 1.32 0.34 0.81 0.84 1.44
CD(P≤0.05) 1.52 1.67 NS 1.33 2.00 0.83 1.44 2.83 0.73 1.73 1.79 NS
CV (%) 14.56 15.53 21.36 11.65 18.45 14.56 13.59 27.18 18.45 15.53 17.48 22.33

Note: NS: Non-significant, C1: Conventional Farming, C2: Bulky Organic Manure, C3: Vivek Krishi, C4: Absolute Control (Inherent Fertility Status of Experimental Soil); V1: Kufri Jyoti, V2: Siwan, V3: C-40, V4: 2236, V5: Ultimatum, V6: Sathi, V7: Lal Gulab, and V8: Nainital. In each column with letters next to a pooled mean, entries with different letters indicate significant differences as regards to different potato varieties at P = 0.05 by Duncan’s Multiple Range Test.

Similar trends of non-significant differences were also observed in case of total sugar in C1 and C4 growing conditions. However, the highest reducing sugar content (13.65%) was documented in V1 [Kufri Jyoti] under C3 (Vivek Krishi) growing condition, whereas the lowest (5.26%) was documented in V1 [Kufri Jyoti] under C2 (Bulky organic manure) growing condition (Table-8).

Table 8: Per se performance on total sugar content (%) in tubers of different potato varieties as influenced by different organically designed treatments

Variety Growing Condition
C1 C2 C3 C4
Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean
V1 10.07 7.71 8.89 6.27 4.25 5.26f 12.84 14.46 13.65a 8.50 7.94 8.22
V2 10.45 8.21 9.33 7.94 4.84 6.39cd 12.96 13.70 13.33a 8.51 7.29 7.90
V3 8.52 7.36 7.94 7.93 5.87 6.90b 10.37 8.99 9.68c 9.27 7.55 8.41
V4 8.38 8.06 8.22 5.37 7.67 6.52cd 11.69 9.05 10.37b 8.31 6.65 7.48
V5 12.21 10.01 11.11 6.83 4.71 5.77e 7.92 5.72 6.82e 7.26 5.16 6.21
V6 7.37 5.49 6.43 7.47 5.87 6.67bcd 11.21 8.79 10.00bc 7.43 5.67 6.55
V7 9.74 8.24 8.99 7.52 6.44 6.98b 8.29 7.29 7.79d 7.12 5.16 6.14
V8 10.97 8.71 9.84 8.37 6.67 7.52a 7.41 6.09 6.75e 7.28 5.12 6.20
SEm (±) 0.56 0.27 1.95 0.72 0.58 0.14 0.85 0.77 0.28 0.18 0.71 1.01
CD(P≤0.05) 1.19 0.57 NS 1.55 1.24 0.30 1.83 1.64 0.60 0.39 1.51 NS
CV (%) 25.49 14.71 14.71 44.12 44.12 45.10 36.27 36.27 28.43 9.80 50.00 12.75

Note: NS: Non-significant, C1: Conventional Farming, C2: Bulky Organic Manure, C3: Vivek Krishi, C4: Absolute Control (Inherent Fertility Status of Experimental Soil); V1: Kufri Jyoti, V2: Siwan, V3: C-40, V4: 2236, V5: Ultimatum, V6: Sathi, V7: Lal Gulab, and V8: Nainital. In each column with letters next to a pooled mean, entries with different letters indicate significant differences as regards to different potato varieties at P = 0.05 by Duncan’s Multiple Range Test.

In case of the ascorbic acid content, although non-significant differences were found under C4 (Absolute control) growing condition in contrast to the statistically significant (P≤0.05) difference among varieties for the remaining growing conditions and consequently the maximum ascorbic acid (19.26 mg.100g-1) was observed in V1 [Kufri Jyoti] under C1 (Conventional Farming) growing condition, while the minimum value (6.42 mg.100g-1)  was found in V5 [Ultimatum] under C3 (Vivek Krishi) growing condition (Table 9). 

Table 9: Per se performance on ascorbic acid content (mg.100g-1) in tubers of different potato varieties as influenced by different organically designed treatments

Variety Growing Condition
C1 C2 C3 C4
Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean
V1 20.21 18.31 19.26a 12.22 14.44 13.33a 11.26 10.46 10.86ab 9.90 6.90 8.40
V2 10.67 9.09 9.88de 12.97 13.69 13.33a 10.64 9.12 9.88b 10.73 8.03 9.38
V3 12.21 14.45 13.33c 8.46 6.36 7.41d 7.36 6.46 6.91c 9.27 8.51 8.89
V4 17.35 15.25 16.30b 8.26 6.56 7.41d 10.62 9.14 9.88b 7.84 8.96 8.40
V5 8.51 7.29 7.90de 9.76 8.02 8.89c 7.26 5.58 6.42c 9.51 8.27 8.89
V6 10.62 9.14 9.88de 14.21 12.45 13.33a 12.74 9.98 11.36a 11.56 9.18 10.37
V7 8.37 6.45 7.41e 7.36 10.42 8.89c 11.36 10.36 10.86ab 11.81 9.91 10.86
V8 9.27 11.47 10.37d 12.61 11.09 11.85b 10.62 9.14 9.88b 9.26 8.52 8.89
SEm (±) 0.77 0.63 1.20 0.67 0.95 0.62 0.98 0.63 0.58 0.34 0.61 2.30
CD(P≤0.05) 1.65 1.34 2.56 1.44 2.04 1.33 2.10 1.36 1.25 0.73 1.31 NS
CV (%) 28.71 24.75 28.71 27.72 40.59 35.64 42.57 32.67 11.88 14.85 31.68 26.73

Note: NS: Non-significant, C1: Conventional Farming, C2: Bulky Organic Manure, C3: Vivek Krishi, C4: Absolute Control (Inherent Fertility Status of Experimental Soil); V1: Kufri Jyoti, V2: Siwan, V3: C-40, V4: 2236, V5: Ultimatum, V6: Sathi, V7: Lal Gulab, and V8: Nainital. In each column with letters next to a pooled mean, entries with different letters indicate significant differences as regards to different potato varieties at P = 0.05 by Duncan’s Multiple Range Test.

While in case of starch content, the highest value (31.86%) was recorded in V6 [Sathi] under C3 (Vivek Krishi) growing condition, while the lowest (12.03%) being recorded in V3 [C-40] under C1 (Conventional Farming) growing condition (Table 10).

Table 10: Per se performance on starch content (%) in tubers of different potato varieties as influenced by different organically designed treatments

Variety Growing Condition
C1 C2 C3 C4
Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean Year-I Year-II Pooled Mean
V1 22.61 20.25 21.43c 23.51 20.99 22.25b 18.25 16.25 17.25g 15.62 14.02 14.82e
V2 16.27 14.55 15.41d 21.56 18.78 20.17c 27.51 25.25 26.38d 16.26 15.52 15.89d
V3 13.21 10.85 12.03e 22.45 21.31 21.88b 28.05 26.75 27.40c 17.26 14.46 15.86d
V4 13.72 11.80 12.76e 28.76 26.78 27.77a 29.62 26.60 28.11b 14.51 12.03 13.27f
V5 16.26 14.56 15.41d 23.51 21.35 22.43b 21.36 20.18 20.77e 14.27 11.85 13.06f
V6 22.71 19.41 21.06c 19.65 17.63 18.64d 32.16 31.56 31.86a 18.26 16.58 17.42c
V7 24.45 21.83 23.14b 17.52 14.82 16.17e 20.61 19.31 19.96f 23.71 21.53 22.62b
V8 27.51 24.73 26.12a 19.54 17.60 18.57d 25.41 27.03 26.22d 26.47 24.39 25.43a
SEm (±) 0.84 0.92 0.35 0.66 1.00 0.18 0.80 0.64 0.32 1.28 0.39 0.40
CD(P≤0.05) 1.80 1.97 0.76 1.41 2.15 0.38 1.71 1.37 0.69 2.75 0.83 0.85
CV (%) 18.63 23.53 4.90 12.75 22.55 3.92 13.73 11.76 9.80 31.37 9.80 6.86

Note: NS: Non-significant, C1: Conventional Farming, C2: Bulky Organic Manure, C3: Vivek Krishi, C4: Absolute Control (Inherent Fertility Status of Experimental Soil); V1: Kufri Jyoti, V2: Siwan, V3: C-40, V4: 2236, V5: Ultimatum, V6: Sathi, V7: Lal Gulab, and V8: Nainital. In each column with letters next to a pooled mean, entries with different letters indicate significant differences as regards to different potato varieties at P = 0.05 by Duncan’s Multiple Range Test.

Discussion

The variation of different quantitative and qualitative traits expression in different varieties of potato may not only be due to disparity in genetic makeup of the studied varieties but also because of the diverse conditions in which they are grown.

Growth and yield attributes

Difference in plant height being the genetic factor, though influenced by inputs applied for the purpose showed that the higher amount of diversified organic inputs applied through other organic growing conditions may have no positive influence over the expression of plant height in different varieties of potato. This type of observation may probably be due to conducting the experiment in already organically converted experimental conditions.  The findings on number of tubers per plant clearly showed the potential of organic liquid manure ‘Sanjeevani’ for supplementation of plant nutrients under the influence of its huge beneficial microbial loads. More number of tubers per plant may be due to better plant growth under more available nitrogenous source of the organic liquid manure as applied through Vivek Krishi growing condition and consequently the better photosynthetic ability that leads to more tubers per plant due to accumulation of photosynthates. The findings on more tubers per plant under nutrient available growing condition corroborated well with some of the earlier investigations.11 Recent findings also revealed that the weight of tuber in potato significantly increased due to the application of different manures and micro-nutrients could be due to more luxuriant growth, more foliage and higher supply of photosynthesis, which helped in producing bigger tuber, resulting higher yield.12 The more tuber yield under C2 (bulky organic manure) growing condition is close conformity with the earlier observation where the application of vermicompost found to be increased significantly the total and marketable yield of potatoes.13 Application of organic manures has led in enhanced organic carbon content, the availability of macro and micronutrients, beneficial microorganism activity and release of nutrients during the entire crop growth period and consequently ensured more yield.14

Proximate quality attributes

Total soluble solids are sometimes inversely related to the weight of the produce and this is especially true for the crops like potato where underground tuber is edible part. The higher the tuber weight the lower the TSS content as estimated in the present investigation confirmed by the earlier findings.15 Dry matter content of tuber being the genetic factor16 but greatly influenced by the cultural practices, climate and soil may largely affect final dry matter content.17 The reduced and gradually released nitrogen from organic sources of plant nutrients used in the present study greatly influenced the dry weight of tuber. Therefore, the higher level of dry matter content was found in tubers grown through the conventional or even the absolute control (organic by default) growing conditions. The reducing sugars of potato tubers are regulated by variety, cultural, and environmental factors.18 Hence, different varieties expressed independently during articulation of this quality trait under diverse growing conditions. Higher level of ascorbic acid in potato tubers grown through conventional farming is associated with the stress growing condition.19 The bio-synthesis of ascorbic acid in plant system is triggered by adverse growing condition and consequently more ascorbic acid was synthesized in C1 (Conventional Farming) and C4 (Absolute Control) growing conditions than their respective two organic growing counterparts. The starch contents of tubers as estimated here are in accordance with the earlier findings.20-21 Although the starch content varied with genotype22 but positively correlated with specific gravity and dry matter content.23 The variation of starch content in different studied varieties may also be due to variation in maturity of tuber under different growing conditions24 and cultural practices.25 The later the maturity the more may be the starch content probably due to the possibilities of accumulation of more plant nutrients over longer duration to mature tubers.26

Conclusion

From the study, it may be concluded that potato is highly responsive to organic growing conditions. In this perspective, Bulky organic manure (C2) and Vivek Krishi (C3) growing conditions emerged as suitable alternative approaches of non-chemical production intervention concerning the expression of growth, yield and quality traits of potato varieties conventionally grown in the eastern Indian plateau especially in the south Chota Nagpur region. Farmers of this region especially the progressive farmers can adopt these alternatives but new technologies to grow potato cultivation and for them Vivek Krishi and bulky organic manure both have suitable option where the quality of produce is better than other alternative organic growing conditions. Bulky organic manure applied condition (where FYM and vermicompost were used to grow the crop varieties) is suitable for higher yield in potato under the south Chota Nagpur region of eastern Indian plateau but Vivek Krishi growing condition (where along with the FYM, enriched Sanjeevani was applied for growing the crop varieties) emerged with comparatively better-quality tuber production than its respective three other organic growing counterparts.

Acknowledgement

Authors acknowledge the financial and infrastructural support of the host institute and its all concerned authorities to accomplish the experiment in organic experimental farm of Ramakrishna Mission Ashrama, Morabadi, Ranchi, Jharkhand (India).

Conflict of Interest

On behalf of all authors, the corresponding author states that there is no conflict of interest.

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