Nitrogen Effects on Productivity and Soil Properties in Conventional and Zero Tilled Wheat with Different Residue Management

Changes in tillage regime from conventional tillage to zero tillage (ZT) call for efficient weed and N management. Nitrogen is subject to immobilization/mineralization under residue-laden ZT system and increasing N-use efficiency through scheduling/rationalization of N is a researchable issue. The a...

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Published in	Proceedings of the National Academy of Sciences, India. Section B: Biological sciences Vol. 89; no. 1; pp. 123 - 135
Main Authors	Nath, Chaitanya Prasad, Das, Tapas Kumar, Bhattacharyya, Ranjan, Pathak, Himanshu, Paul, Sangeeta, Chakraborty, Debashis, Hazra, Kali Krishna
Format	Journal Article Conference Proceeding
Language	English
Published	New Delhi Springer India 04.03.2019 Springer Nature B.V
Subjects	Behavioral Sciences Biomedical and Life Sciences conventional tillage Fluorescein diacetate grain yield Immobilization Life Sciences Management microbial biomass Mineralization nitrogen no-tillage Nucleic Acid Chemistry nutrient use efficiency Plant Biochemistry Research Article soil aggregation soil microorganisms Soil properties Sustainable yield Tillage Urease Weed control weeds wheat Herbicides Carbon pools Crop residue Soil enzymes Tillage Soil aggregation Nitrogen Wheat
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ISSN	0369-8211 2250-1746
DOI	10.1007/s40011-017-0919-z

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Abstract	Changes in tillage regime from conventional tillage to zero tillage (ZT) call for efficient weed and N management. Nitrogen is subject to immobilization/mineralization under residue-laden ZT system and increasing N-use efficiency through scheduling/rationalization of N is a researchable issue. The authors investigated the N and weed management options for wheat under ZT with or without residue. Results showed that ZT + residue retention (R) + 75% N + GreenSeeker™ (GS)-aided N management (ZT + R+75N + GS) recorded significantly higher wheat yield (5.11 t ha −1 ) over CT − R + 100N (4.48 t ha −1 ). The ZT + R+75N + GS improved macro-aggregates by 25.3% and decreased micro-aggregates by 6.8% in surface soil than CT − R + 100N. Treatment ZT + R+75N + GS had highest labile C (~ 3.63 g C kg −1 soil), which was 24.7% higher than CT − R + 100N (2.91 g C kg −1 soil). This treatment resulted in highest microbial biomass C (148.6 µg g −1 soil). It showed a significant increment in fluorescein diacetate (by 30.9%), total phosphatase (by 63.2%) and urease (by 31.6%) activities in surface soil over CT − R + 100N. Optical sensor-based N management saved N to the tune of 15–20 kg ha −1 over CT − R + 100 N. The ZT with residue retention and GS-aided N management has greater potential to secure sustainable yield, better soil aggregation, labile C and soil micro-flora than CT without/with residue incorporation.
AbstractList	Changes in tillage regime from conventional tillage to zero tillage (ZT) call for efficient weed and N management. Nitrogen is subject to immobilization/mineralization under residue-laden ZT system and increasing N-use efficiency through scheduling/rationalization of N is a researchable issue. The authors investigated the N and weed management options for wheat under ZT with or without residue. Results showed that ZT + residue retention (R) + 75% N + GreenSeeker™ (GS)-aided N management (ZT + R+75N + GS) recorded significantly higher wheat yield (5.11 t ha−1) over CT − R + 100N (4.48 t ha−1). The ZT + R+75N + GS improved macro-aggregates by 25.3% and decreased micro-aggregates by 6.8% in surface soil than CT − R + 100N. Treatment ZT + R+75N + GS had highest labile C (~ 3.63 g C kg−1 soil), which was 24.7% higher than CT − R + 100N (2.91 g C kg−1 soil). This treatment resulted in highest microbial biomass C (148.6 µg g−1 soil). It showed a significant increment in fluorescein diacetate (by 30.9%), total phosphatase (by 63.2%) and urease (by 31.6%) activities in surface soil over CT − R + 100N. Optical sensor-based N management saved N to the tune of 15–20 kg ha−1 over CT − R + 100 N. The ZT with residue retention and GS-aided N management has greater potential to secure sustainable yield, better soil aggregation, labile C and soil micro-flora than CT without/with residue incorporation. Changes in tillage regime from conventional tillage to zero tillage (ZT) call for efficient weed and N management. Nitrogen is subject to immobilization/mineralization under residue-laden ZT system and increasing N-use efficiency through scheduling/rationalization of N is a researchable issue. The authors investigated the N and weed management options for wheat under ZT with or without residue. Results showed that ZT + residue retention (R) + 75% N + GreenSeeker™ (GS)-aided N management (ZT + R+75N + GS) recorded significantly higher wheat yield (5.11 t ha −1 ) over CT − R + 100N (4.48 t ha −1 ). The ZT + R+75N + GS improved macro-aggregates by 25.3% and decreased micro-aggregates by 6.8% in surface soil than CT − R + 100N. Treatment ZT + R+75N + GS had highest labile C (~ 3.63 g C kg −1 soil), which was 24.7% higher than CT − R + 100N (2.91 g C kg −1 soil). This treatment resulted in highest microbial biomass C (148.6 µg g −1 soil). It showed a significant increment in fluorescein diacetate (by 30.9%), total phosphatase (by 63.2%) and urease (by 31.6%) activities in surface soil over CT − R + 100N. Optical sensor-based N management saved N to the tune of 15–20 kg ha −1 over CT − R + 100 N. The ZT with residue retention and GS-aided N management has greater potential to secure sustainable yield, better soil aggregation, labile C and soil micro-flora than CT without/with residue incorporation. Changes in tillage regime from conventional tillage to zero tillage (ZT) call for efficient weed and N management. Nitrogen is subject to immobilization/mineralization under residue-laden ZT system and increasing N-use efficiency through scheduling/rationalization of N is a researchable issue. The authors investigated the N and weed management options for wheat under ZT with or without residue. Results showed that ZT + residue retention (R) + 75% N + GreenSeeker™ (GS)-aided N management (ZT + R+75N + GS) recorded significantly higher wheat yield (5.11 t ha⁻¹) over CT − R + 100N (4.48 t ha⁻¹). The ZT + R+75N + GS improved macro-aggregates by 25.3% and decreased micro-aggregates by 6.8% in surface soil than CT − R + 100N. Treatment ZT + R+75N + GS had highest labile C (~ 3.63 g C kg⁻¹ soil), which was 24.7% higher than CT − R + 100N (2.91 g C kg⁻¹ soil). This treatment resulted in highest microbial biomass C (148.6 µg g⁻¹ soil). It showed a significant increment in fluorescein diacetate (by 30.9%), total phosphatase (by 63.2%) and urease (by 31.6%) activities in surface soil over CT − R + 100N. Optical sensor-based N management saved N to the tune of 15–20 kg ha⁻¹ over CT − R + 100 N. The ZT with residue retention and GS-aided N management has greater potential to secure sustainable yield, better soil aggregation, labile C and soil micro-flora than CT without/with residue incorporation.
Author	Das, Tapas Kumar Chakraborty, Debashis Nath, Chaitanya Prasad Bhattacharyya, Ranjan Paul, Sangeeta Hazra, Kali Krishna Pathak, Himanshu
Author_xml	– sequence: 1 givenname: Chaitanya Prasad surname: Nath fullname: Nath, Chaitanya Prasad email: cpnath4@gmail.com organization: Division of Crop Production, ICAR-Indian Institute of Pulses Research – sequence: 2 givenname: Tapas Kumar surname: Das fullname: Das, Tapas Kumar organization: Division of Agronomy, ICAR-Indian Agricultural Research Institute – sequence: 3 givenname: Ranjan surname: Bhattacharyya fullname: Bhattacharyya, Ranjan organization: Centre for Environment Science and Climate Resilient Agriculture, ICAR-Indian Agricultural Research Institute – sequence: 4 givenname: Himanshu surname: Pathak fullname: Pathak, Himanshu organization: Centre for Environment Science and Climate Resilient Agriculture, ICAR-Indian Agricultural Research Institute – sequence: 5 givenname: Sangeeta surname: Paul fullname: Paul, Sangeeta organization: Division of Microbiology, ICAR-Indian Agricultural Research Institute – sequence: 6 givenname: Debashis surname: Chakraborty fullname: Chakraborty, Debashis organization: Division of Agricultural Physics, ICAR-Indian Agricultural Research Institute – sequence: 7 givenname: Kali Krishna surname: Hazra fullname: Hazra, Kali Krishna organization: Division of Crop Production, ICAR-Indian Institute of Pulses Research
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SubjectTerms	Behavioral Sciences Biomedical and Life Sciences conventional tillage Fluorescein diacetate grain yield Immobilization Life Sciences Management microbial biomass Mineralization nitrogen no-tillage Nucleic Acid Chemistry nutrient use efficiency Plant Biochemistry Research Article soil aggregation soil microorganisms Soil properties Sustainable yield Tillage Urease Weed control weeds wheat
Title	Nitrogen Effects on Productivity and Soil Properties in Conventional and Zero Tilled Wheat with Different Residue Management
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