Productivity and Nutrient Balance of an Intensive Rice–Rice Cropping System Are Influenced by Different Nutrient Management in the Red and Lateritic Belt of West Bengal, India

Rice is the lifeline for more than half of the world population, and in India, in view of its huge demand in the country, farmers adopt a rice–rice cropping system where the irrigation facility is available. As rice is a nutrient-exhausting crop, sustainable productivity of rice–rice cropping system...

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Published inPlants (Basel) Vol. 10; no. 8; p. 1622
Main Authors Shankar, Tanmoy, Malik, Ganesh Chandra, Banerjee, Mahua, Dutta, Sudarshan, Maitra, Sagar, Praharaj, Subhashisa, Sairam, Masina, Kumar, Duvvada Sarath, Dessoky, Eldessoky S., Hassan, Mohamed M., Ismail, Ismail A., Saif, Tarek, Skalicky, Milan, Brestic, Marian, Hossain, Akbar
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 06.08.2021
MDPI
Subjects
Agricultural production
Belts
Cereal crops
Chlorophyll
Crop yield
Cropping systems
Crops
Experiments
Farms
Fertilizer application
Fertilizers
Grain
grain yield
Growing season
growth characters
hybrids
India
Irrigation
Irrigation systems
laterites
Loam soils
Nitrogen
Nutrient balance
nutrient management
Nutrient uptake
nutrient uptake and balance
Nutrients
Nutrition
panicles
Phosphorus pentoxide
Potassium
Productivity
Rain
Rice
Rice fields
rice–rice cropping system
Seasons
Seeds
Soil fertility
spikelets
subtropics
Sustainability
Sustainable yield
Weight
Wind
World population
yield attributes
West Bengal India
India
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Abstract Rice is the lifeline for more than half of the world population, and in India, in view of its huge demand in the country, farmers adopt a rice–rice cropping system where the irrigation facility is available. As rice is a nutrient-exhausting crop, sustainable productivity of rice–rice cropping system greatly depends on appropriate nutrient management in accordance with the inherent soil fertility. The application of an ample dose of fertilizer is the key factor for maintaining sustainable rice yields and nutrient balance of the soil. Considering the above facts, an experiment was conducted on nutrient management in a rice–rice cropping system at the university farm of Visva-Bharati, situated in a sub-tropical climate under the red and lateritic belt of the western part of West Bengal, India, during two consecutive years (2014–2016). The experiment was laid out in a Randomized Completely Block Design with 12 treatments and three replications, with different rates of N:P:K:Zn:S application in both of the growing seasons, namely, kharif and Boro. The recommended (ample) dose of nutrients was 80:40:40:25:20 and 120:60:60:25:20 kg ha−1 of N:P2O5:K2O:Zn:S in the Kharif and Boro season, respectively. A high yielding variety, named MTU 7029, and a hybrid, Arize 6444 GOLD, were taken in the Kharif and Boro seasons, respectively. The results clearly indicated that the application of a recommended dose of nutrients showed its superiority over the control (no fertilizer application) in the expression of growth characters, yield attributes, yields, and nutrient uptake of Kharif as well as Boro rice. Out of the all treatments, the best result was found in the treatment where the ample dose of nutrients was applied, resulting in maximum grain yield in both the Kharif (5.6 t ha−1) and Boro (6.6 t ha−1) season. The corresponding yield attributes for the same treatment in the Kharif (panicles m−2: 247.9; grains panicle−1: 132.0; spikelets panicle−1: 149.6; test weight: 23.8 g; and panicle length: 30.6 cm) and Boro (panicles m−2: 281.6; grains panicle−1: 142.7; spikelets panicle−1: 157.2; test weight: 24.8 g; and panicle length: 32.8 cm) season explained the maximum yield in this treatment. Further, a reduction or omission of individual nutrients adversely impacted on the above traits and resulted in a negative balance of the respective nutrients. The study concluded that the application of a recommended dose of nutrients was essential for proper nutrient balance and sustainable yields in the rice–rice cropping system.
AbstractList Rice is the lifeline for more than half of the world population, and in India, in view of its huge demand in the country, farmers adopt a rice–rice cropping system where the irrigation facility is available. As rice is a nutrient-exhausting crop, sustainable productivity of rice–rice cropping system greatly depends on appropriate nutrient management in accordance with the inherent soil fertility. The application of an ample dose of fertilizer is the key factor for maintaining sustainable rice yields and nutrient balance of the soil. Considering the above facts, an experiment was conducted on nutrient management in a rice–rice cropping system at the university farm of Visva-Bharati, situated in a sub-tropical climate under the red and lateritic belt of the western part of West Bengal, India, during two consecutive years (2014–2016). The experiment was laid out in a Randomized Completely Block Design with 12 treatments and three replications, with different rates of N:P:K:Zn:S application in both of the growing seasons, namely, kharif and Boro . The recommended (ample) dose of nutrients was 80:40:40:25:20 and 120:60:60:25:20 kg ha −1 of N:P 2 O 5 :K 2 O:Zn:S in the Kharif and Boro season, respectively. A high yielding variety, named MTU 7029, and a hybrid, Arize 6444 GOLD, were taken in the Kharif and Boro seasons, respectively. The results clearly indicated that the application of a recommended dose of nutrients showed its superiority over the control (no fertilizer application) in the expression of growth characters, yield attributes, yields, and nutrient uptake of Kharif as well as Boro rice. Out of the all treatments, the best result was found in the treatment where the ample dose of nutrients was applied, resulting in maximum grain yield in both the Kharif (5.6 t ha −1 ) and Boro (6.6 t ha −1 ) season. The corresponding yield attributes for the same treatment in the Kharif (panicles m −2 : 247.9; grains panicle −1 : 132.0; spikelets panicle −1 : 149.6; test weight: 23.8 g; and panicle length: 30.6 cm) and Boro (panicles m −2 : 281.6; grains panicle −1 : 142.7; spikelets panicle −1 : 157.2; test weight: 24.8 g; and panicle length: 32.8 cm) season explained the maximum yield in this treatment. Further, a reduction or omission of individual nutrients adversely impacted on the above traits and resulted in a negative balance of the respective nutrients. The study concluded that the application of a recommended dose of nutrients was essential for proper nutrient balance and sustainable yields in the rice–rice cropping system.
Rice is the lifeline for more than half of the world population, and in India, in view of its huge demand in the country, farmers adopt a rice-rice cropping system where the irrigation facility is available. As rice is a nutrient-exhausting crop, sustainable productivity of rice-rice cropping system greatly depends on appropriate nutrient management in accordance with the inherent soil fertility. The application of an ample dose of fertilizer is the key factor for maintaining sustainable rice yields and nutrient balance of the soil. Considering the above facts, an experiment was conducted on nutrient management in a rice-rice cropping system at the university farm of Visva-Bharati, situated in a sub-tropical climate under the red and lateritic belt of the western part of West Bengal, India, during two consecutive years (2014-2016). The experiment was laid out in a Randomized Completely Block Design with 12 treatments and three replications, with different rates of N:P:K:Zn:S application in both of the growing seasons, namely, kharif and Boro. The recommended (ample) dose of nutrients was 80:40:40:25:20 and 120:60:60:25:20 kg ha-1 of N:P2O5:K2O:Zn:S in the Kharif and Boro season, respectively. A high yielding variety, named MTU 7029, and a hybrid, Arize 6444 GOLD, were taken in the Kharif and Boro seasons, respectively. The results clearly indicated that the application of a recommended dose of nutrients showed its superiority over the control (no fertilizer application) in the expression of growth characters, yield attributes, yields, and nutrient uptake of Kharif as well as Boro rice. Out of the all treatments, the best result was found in the treatment where the ample dose of nutrients was applied, resulting in maximum grain yield in both the Kharif (5.6 t ha-1) and Boro (6.6 t ha-1) season. The corresponding yield attributes for the same treatment in the Kharif (panicles m-2: 247.9; grains panicle-1: 132.0; spikelets panicle-1: 149.6; test weight: 23.8 g; and panicle length: 30.6 cm) and Boro (panicles m-2: 281.6; grains panicle-1: 142.7; spikelets panicle-1: 157.2; test weight: 24.8 g; and panicle length: 32.8 cm) season explained the maximum yield in this treatment. Further, a reduction or omission of individual nutrients adversely impacted on the above traits and resulted in a negative balance of the respective nutrients. The study concluded that the application of a recommended dose of nutrients was essential for proper nutrient balance and sustainable yields in the rice-rice cropping system.Rice is the lifeline for more than half of the world population, and in India, in view of its huge demand in the country, farmers adopt a rice-rice cropping system where the irrigation facility is available. As rice is a nutrient-exhausting crop, sustainable productivity of rice-rice cropping system greatly depends on appropriate nutrient management in accordance with the inherent soil fertility. The application of an ample dose of fertilizer is the key factor for maintaining sustainable rice yields and nutrient balance of the soil. Considering the above facts, an experiment was conducted on nutrient management in a rice-rice cropping system at the university farm of Visva-Bharati, situated in a sub-tropical climate under the red and lateritic belt of the western part of West Bengal, India, during two consecutive years (2014-2016). The experiment was laid out in a Randomized Completely Block Design with 12 treatments and three replications, with different rates of N:P:K:Zn:S application in both of the growing seasons, namely, kharif and Boro. The recommended (ample) dose of nutrients was 80:40:40:25:20 and 120:60:60:25:20 kg ha-1 of N:P2O5:K2O:Zn:S in the Kharif and Boro season, respectively. A high yielding variety, named MTU 7029, and a hybrid, Arize 6444 GOLD, were taken in the Kharif and Boro seasons, respectively. The results clearly indicated that the application of a recommended dose of nutrients showed its superiority over the control (no fertilizer application) in the expression of growth characters, yield attributes, yields, and nutrient uptake of Kharif as well as Boro rice. Out of the all treatments, the best result was found in the treatment where the ample dose of nutrients was applied, resulting in maximum grain yield in both the Kharif (5.6 t ha-1) and Boro (6.6 t ha-1) season. The corresponding yield attributes for the same treatment in the Kharif (panicles m-2: 247.9; grains panicle-1: 132.0; spikelets panicle-1: 149.6; test weight: 23.8 g; and panicle length: 30.6 cm) and Boro (panicles m-2: 281.6; grains panicle-1: 142.7; spikelets panicle-1: 157.2; test weight: 24.8 g; and panicle length: 32.8 cm) season explained the maximum yield in this treatment. Further, a reduction or omission of individual nutrients adversely impacted on the above traits and resulted in a negative balance of the respective nutrients. The study concluded that the application of a recommended dose of nutrients was essential for proper nutrient balance and sustainable yields in the rice-rice cropping system.
Rice is the lifeline for more than half of the world population, and in India, in view of its huge demand in the country, farmers adopt a rice–rice cropping system where the irrigation facility is available. As rice is a nutrient-exhausting crop, sustainable productivity of rice–rice cropping system greatly depends on appropriate nutrient management in accordance with the inherent soil fertility. The application of an ample dose of fertilizer is the key factor for maintaining sustainable rice yields and nutrient balance of the soil. Considering the above facts, an experiment was conducted on nutrient management in a rice–rice cropping system at the university farm of Visva-Bharati, situated in a sub-tropical climate under the red and lateritic belt of the western part of West Bengal, India, during two consecutive years (2014–2016). The experiment was laid out in a Randomized Completely Block Design with 12 treatments and three replications, with different rates of N:P:K:Zn:S application in both of the growing seasons, namely, kharif and Boro. The recommended (ample) dose of nutrients was 80:40:40:25:20 and 120:60:60:25:20 kg ha−1 of N:P2O5:K2O:Zn:S in the Kharif and Boro season, respectively. A high yielding variety, named MTU 7029, and a hybrid, Arize 6444 GOLD, were taken in the Kharif and Boro seasons, respectively. The results clearly indicated that the application of a recommended dose of nutrients showed its superiority over the control (no fertilizer application) in the expression of growth characters, yield attributes, yields, and nutrient uptake of Kharif as well as Boro rice. Out of the all treatments, the best result was found in the treatment where the ample dose of nutrients was applied, resulting in maximum grain yield in both the Kharif (5.6 t ha−1) and Boro (6.6 t ha−1) season. The corresponding yield attributes for the same treatment in the Kharif (panicles m−2: 247.9; grains panicle−1: 132.0; spikelets panicle−1: 149.6; test weight: 23.8 g; and panicle length: 30.6 cm) and Boro (panicles m−2: 281.6; grains panicle−1: 142.7; spikelets panicle−1: 157.2; test weight: 24.8 g; and panicle length: 32.8 cm) season explained the maximum yield in this treatment. Further, a reduction or omission of individual nutrients adversely impacted on the above traits and resulted in a negative balance of the respective nutrients. The study concluded that the application of a recommended dose of nutrients was essential for proper nutrient balance and sustainable yields in the rice–rice cropping system.
Rice is the lifeline for more than half of the world population, and in India, in view of its huge demand in the country, farmers adopt a rice–rice cropping system where the irrigation facility is available. As rice is a nutrient-exhausting crop, sustainable productivity of rice–rice cropping system greatly depends on appropriate nutrient management in accordance with the inherent soil fertility. The application of an ample dose of fertilizer is the key factor for maintaining sustainable rice yields and nutrient balance of the soil. Considering the above facts, an experiment was conducted on nutrient management in a rice–rice cropping system at the university farm of Visva-Bharati, situated in a sub-tropical climate under the red and lateritic belt of the western part of West Bengal, India, during two consecutive years (2014–2016). The experiment was laid out in a Randomized Completely Block Design with 12 treatments and three replications, with different rates of N:P:K:Zn:S application in both of the growing seasons, namely, kharif and Boro. The recommended (ample) dose of nutrients was 80:40:40:25:20 and 120:60:60:25:20 kg ha⁻¹ of N:P₂O₅:K₂O:Zn:S in the Kharif and Boro season, respectively. A high yielding variety, named MTU 7029, and a hybrid, Arize 6444 GOLD, were taken in the Kharif and Boro seasons, respectively. The results clearly indicated that the application of a recommended dose of nutrients showed its superiority over the control (no fertilizer application) in the expression of growth characters, yield attributes, yields, and nutrient uptake of Kharif as well as Boro rice. Out of the all treatments, the best result was found in the treatment where the ample dose of nutrients was applied, resulting in maximum grain yield in both the Kharif (5.6 t ha⁻¹) and Boro (6.6 t ha⁻¹) season. The corresponding yield attributes for the same treatment in the Kharif (panicles m⁻²: 247.9; grains panicle⁻¹: 132.0; spikelets panicle⁻¹: 149.6; test weight: 23.8 g; and panicle length: 30.6 cm) and Boro (panicles m⁻²: 281.6; grains panicle⁻¹: 142.7; spikelets panicle⁻¹: 157.2; test weight: 24.8 g; and panicle length: 32.8 cm) season explained the maximum yield in this treatment. Further, a reduction or omission of individual nutrients adversely impacted on the above traits and resulted in a negative balance of the respective nutrients. The study concluded that the application of a recommended dose of nutrients was essential for proper nutrient balance and sustainable yields in the rice–rice cropping system.
Author Kumar, Duvvada Sarath
Hassan, Mohamed M.
Hossain, Akbar
Malik, Ganesh Chandra
Brestic, Marian
Dutta, Sudarshan
Maitra, Sagar
Dessoky, Eldessoky S.
Banerjee, Mahua
Sairam, Masina
Saif, Tarek
Skalicky, Milan
Praharaj, Subhashisa
Shankar, Tanmoy
Ismail, Ismail A.
AuthorAffiliation 5 National Institute of Oceanography and Fisheries, Kasr ELAiny St. Cairo 101, Egypt; saiftjj@yahoo.com
2 Department of Agronomy, Palli Siksha Bhavana, Visva-Bharati, Sriniketan 731204, India; ganeshmalik_2004@rediffmail.com (G.C.M.); mahua.banerjee@visva-bharati.ac.in (M.B.)
1 Department of Agronomy, Centurion University of Technology and Management, Odisha 761211, India; tanmoy.shankar125@gmail.com (T.S.); sagar.maitra@cutm.ac.in (S.M.); subhashisa.praharaj@cutm.ac.in (S.P.); sairammasina52@gmail.com (M.S.); sarathkumarduvvada010@gmail.com (D.S.K.)
6 Department of Botany and Plant Physiology, Faculty of Agrobiology, Food, and Natural Resources, Czech University of Life Sciences Prague, Kamycka 129, 165 00 Prague, Czech Republic; skalicky@af.czu.cz (M.S.); marian.brestic@uniag.sk (M.B.)
3 International Plant Nutrition Institute, South Asia (East India and Bangladesh) Program, India and African Plant Nutrition Institute, Benguerir 43150, Morocco; s.dutta@apni.net
8 Bangladesh Wheat and Maiz
AuthorAffiliation_xml – name: 3 International Plant Nutrition Institute, South Asia (East India and Bangladesh) Program, India and African Plant Nutrition Institute, Benguerir 43150, Morocco; s.dutta@apni.net
– name: 7 Department of Plant Physiology, Slovak University of Agriculture, Nitra, Tr. A. Hlinku 2, 949 01 Nitra, Slovakia
– name: 6 Department of Botany and Plant Physiology, Faculty of Agrobiology, Food, and Natural Resources, Czech University of Life Sciences Prague, Kamycka 129, 165 00 Prague, Czech Republic; skalicky@af.czu.cz (M.S.); marian.brestic@uniag.sk (M.B.)
– name: 4 Department of Biology, College of Science, Taif University, P.O. Box 11099, Taif 21944, Saudi Arabia; es.dessouky@tu.edu.sa (E.S.D.); i.ismail@tu.edu.sa (I.A.I.)
– name: 8 Bangladesh Wheat and Maize Research Institute, Dinajpur 5200, Bangladesh
– name: 1 Department of Agronomy, Centurion University of Technology and Management, Odisha 761211, India; tanmoy.shankar125@gmail.com (T.S.); sagar.maitra@cutm.ac.in (S.M.); subhashisa.praharaj@cutm.ac.in (S.P.); sairammasina52@gmail.com (M.S.); sarathkumarduvvada010@gmail.com (D.S.K.)
– name: 5 National Institute of Oceanography and Fisheries, Kasr ELAiny St. Cairo 101, Egypt; saiftjj@yahoo.com
– name: 2 Department of Agronomy, Palli Siksha Bhavana, Visva-Bharati, Sriniketan 731204, India; ganeshmalik_2004@rediffmail.com (G.C.M.); mahua.banerjee@visva-bharati.ac.in (M.B.)
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  surname: Shankar
  fullname: Shankar, Tanmoy
– sequence: 2
  givenname: Ganesh Chandra
  surname: Malik
  fullname: Malik, Ganesh Chandra
– sequence: 3
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  surname: Banerjee
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  surname: Praharaj
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– sequence: 7
  givenname: Masina
  surname: Sairam
  fullname: Sairam, Masina
– sequence: 8
  givenname: Duvvada Sarath
  surname: Kumar
  fullname: Kumar, Duvvada Sarath
– sequence: 9
  givenname: Eldessoky S.
  orcidid: 0000-0001-8752-3450
  surname: Dessoky
  fullname: Dessoky, Eldessoky S.
– sequence: 10
  givenname: Mohamed M.
  orcidid: 0000-0003-1612-107X
  surname: Hassan
  fullname: Hassan, Mohamed M.
– sequence: 11
  givenname: Ismail A.
  orcidid: 0000-0001-9437-2136
  surname: Ismail
  fullname: Ismail, Ismail A.
– sequence: 12
  givenname: Tarek
  surname: Saif
  fullname: Saif, Tarek
– sequence: 13
  givenname: Milan
  orcidid: 0000-0002-4114-6909
  surname: Skalicky
  fullname: Skalicky, Milan
– sequence: 14
  givenname: Marian
  orcidid: 0000-0003-3470-6100
  surname: Brestic
  fullname: Brestic, Marian
– sequence: 15
  givenname: Akbar
  orcidid: 0000-0003-0264-2712
  surname: Hossain
  fullname: Hossain, Akbar
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2021 by the authors. 2021
Copyright_xml – notice: 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
– notice: 2021 by the authors. 2021
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Snippet Rice is the lifeline for more than half of the world population, and in India, in view of its huge demand in the country, farmers adopt a rice–rice cropping...
Rice is the lifeline for more than half of the world population, and in India, in view of its huge demand in the country, farmers adopt a rice-rice cropping...
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SubjectTerms Agricultural production
Belts
Cereal crops
Chlorophyll
Crop yield
Cropping systems
Crops
Experiments
Farms
Fertilizer application
Fertilizers
Grain
grain yield
Growing season
growth characters
hybrids
India
Irrigation
Irrigation systems
laterites
Loam soils
Nitrogen
Nutrient balance
nutrient management
Nutrient uptake
nutrient uptake and balance
Nutrients
Nutrition
panicles
Phosphorus pentoxide
Potassium
Productivity
Rain
Rice
Rice fields
rice–rice cropping system
Seasons
Seeds
Soil fertility
spikelets
subtropics
Sustainability
Sustainable yield
Weight
Wind
World population
yield attributes
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Title Productivity and Nutrient Balance of an Intensive Rice–Rice Cropping System Are Influenced by Different Nutrient Management in the Red and Lateritic Belt of West Bengal, India
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