Bio-energy, water-use efficiency and economics of maize-wheat-mungbean system under precision-conservation agriculture in semi-arid agro-ecosystem

Parihar, C.M.; Jat, Shankar Lal; Singh, Awnindra K.; Majumdar, Kaushik; Jat, M.L.; Saharawat, Yashpal; Pradhan, Sanatan; Kuri, B. R.

doi:10.1016/j.energy.2016.12.068

Cited by 89 publications

(48 citation statements)

References 45 publications

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“…All data recorded were analyzed with the help 55.8-59.6% higher stover yield compared to CT-MMS (Fig.1). Our findings of higher yields of maize under ZT and PB are in close agreement with the findings of Yadav et al, (2016a); Gathala et al, (2013); Parihar et al, (2016a); Parihar et al, (2017). The higher yields of maize in ZT/PB systems could be due to the compound effects of additional nutrients (BlancoCanqui and Lal 2009;Kaschuk et al, 2010) reduce competition for resources due to lesser weed population (Ozpinar, 2006) and improved bio-physicochemical soil health Parihar et al, 2016;Govaerts et al, 2009) over CT.…”

Section: Methodssupporting

confidence: 81%

“…(2) continuous cultivation of high water requiring rice crop (Mahajan et al, 2012); and (3) irrational production practices resulted in decline in system productivity and resource-useefficiency (Pooniya et al, 2012 andParihar et al,2017). The practice of growing cereal after cereal coupled with use of intensive tillage led to decline in factor productivity (Dwivedi et al, 2012), stagnation in crop yield and depression in farm income which in bulk posing a serious threat to food security of IGP region (Aggarwal et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

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Long term effect of legume intensified crop rotations and tillage practices on productivity and profitability of maize vis-a-vis soil fertility in North-Western Indo-Gangetic Plains of India

Yadav

Parihar

Jat

et al. 2017

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The present study was planned to evaluate the long term effect of legume intensified maize based crop rotations and tillage practices on productivity, profitability of maize vis-a-vis soil health. The experiment consisted of three tillage practices i.e. zero tillage (ZT), permanent bed (PB) and conventional tillage (CT) as main plot treatments and four crop rotations (MWMb; maize-wheat-mungbean, MCS; maize-chickpea-Sesbania, MMuMb; maize-mustard-mungbean, MMS; maizemaize-Sesbania) as sub plot treatments. Results revealed that ZT and PB resulted into significantly (P<0.05) improvement in grain (7.7-14.2%) and stover yield (7.4-13.0%) of maize over CT. Similarly, maize grain and stover yield were invariably higher in MCS and MWMb systems compared to MMuMb and MMS rotations. The total soil carbon (TSC) content increased by 15.4-17.4 and 20.32-20.91% with ZT and PB over CT in 0-15 and 15-30 cm soil depths, respectively. However, MCS and MWMb rotations registered 11.3-18.0% (0-15 cm) and 8.4-11.0% (15-30 cm) higher TSC over MMuMb rotation. Similarly, ZT and PB resulted into significantly (P<0.05) improvement in available soil nitrogen (N), phosphorus (P) and potassium (K) compared to CT. ZT/PB under MCS crop rotations registered higher net returns and BC ratio compared to rest of the treatment combinations. Interaction effect of tillage and crop rotations were significant (P<0.05) for stover yield, net returns, BC ratio and TSC and all these parameters were reported maximum with ZT-MCS. Thus, the present study suggests that CA based crop management practices can be advocated as sustainable intensification strategy in northwestern India.

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Section: Methodssupporting

confidence: 81%

Section: Introductionmentioning

confidence: 99%

Long term effect of legume intensified crop rotations and tillage practices on productivity and profitability of maize vis-a-vis soil fertility in North-Western Indo-Gangetic Plains of India

Yadav

Parihar

Jat

et al. 2017

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“…ZT-MCS and ZT-MWMb plots registered 14.08-31.41% higher MPYA compared to CT-MMuMb and CT-MMS. Our findings of higher MPYA under CA practices (ZT and PB) are in close agreement with the findings of Parihar et al, 2017. The higher availability of nutrients due to better soil bio-physico-chemical properties, better availability of soil moisture, and reduced competition for resources (Kaschuk et al, 2010;Parihar et al, 2016a) leads to higher uptake of the nutrient especially nitrogen which is critical for protein synthesis that ultimately resulted into higher protein profile of the crop under CA practices (ZT/PB) over CT.…”

Section: Maize Protein Yield (Mpy)supporting

confidence: 81%

Impact of legume intensified crop rotations and tillage practices on maize productivity vis-à-vis C and N dynamics of a sandy loam soil in north-western Indo-Gangetic Plains of India

Yadav

Parihar

Jat

et al. 2017

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The study was conducted to evaluate long-term effect of legume intensified maize based crop rotations and contrasting tillage practices and a experiment was laid out in split plot design with three tillage practices i.e. zero tillage (ZT), permanent bed (PB) and conventional tillage (CT) as main plot treatments and four legume intensified crop rotations (MWMbmaize-wheat-mungbean, MCS -maize-chickpea-Sesbania, MMuMb -maize-mustard-mungbean and MMS -maize-maizeSesbania) as sub-plot treatments. Adoption of CA based tillage practices (ZT/PB) significantly improved maize protein yield (MPY). ZT/PB gave 7.7-14.2% higher MPY(Maize protein yield and 7.4-13.0% higher MPYA (maize protein yield for adults) over CT. Similarly, the MPY and MPYA under legume intensified cereal based rotations were invariably higher in MCS and MWMb systems compared to MMuMb and MMS rotations.The total soil nitrogen (TSN) content increased by 15.4-17.4 and 20.32-20.91% with ZT and PB over CT in 0-15 and 15-30 cm soil depths, respectively. However, among the legume intensified rotations the maize planted under MCS and MWMb rotations registered 11.3-18.0% (0-15cm) and 8.4-11.0% (15-30cm) higher TSN over MMuMb and MMS rotation. Similarly, adoption of the CA practices (ZT/PB) resulted into significant improvement in soil organic carbon (SOC) stocks compared to CT. ZT and PB among the tillage practices and MCS crop rotations among the sub-plot treatments registered higher Leaf area index (LAI) and net assimilation rate (NAR) compared to other management practices. Interaction effect of tillage practices and crop rotations were significant for MPY, MPYA, TSN and SOC stocks and all these parameters were reported maximum with ZT-MCS. Thus, our study suggests that CA based crop management with legume diversified maize based rotations (MCS and MWMb) can be advocated as sustainable intensification strategy in north-western India and other similar agro-ecologies of South Asia.

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“…Parihar et al [123] argued that adoption of conservation tillage practices with improved nutrient management could be a viable option for achieving higher biomass productivity, water and energy-use efficiency and profitability in maize-wheat cropping systems, particularly when mungbean is introduced to rotations. Long-term experiments from India suggest that the adoption of CA-based tillage under maize-chickpea-sesbania and maize-wheat-mungbean systems can enhance crop productivity, profitability and nutrient uptake of kharif maize in the north-western region of India and under similar agro-climatic conditions [124].…”

Section: Conservation Agriculturementioning

confidence: 99%

“…Semiarid and arid areas are fragile ecosystems and adapted production systems are important to safeguard food production and economy of the rural Lower production costs due to strip cropping; better prices for wheat and mungbean improved farm economy [131] ZT, CRM and Sesbania sp., residue retention (RR), green manure Soil organic carbon (SOC) increases under zero tillage, when residue were retained; improved water infiltration; higher water availability; decreased soil strength and bulk density; improved grain yields [132] India No tillage, mungbean, residue management Increase of wheat and rice yields; higher net returns [122] ZT, permanent bed (PB), legume-based crop rotations with mungbean, crop diversification Lower production costs, improved water and energy efficiency; crop yield increase [123] ZT, PB, legume-based crop rotations with mungbean Positive yield responses of maize; improved energy efficiency [124] ZT, PB, RR, precise irrigation Decreased water use; higher water and crop productivity [125] ZT, Sesbania sp., brown manuring, relay cropping with mungbean, RR Increase of stable and labile SOC fractions; no effects on soil mineral N, but on soil microbial mass [126] Partial tillage and ZT in CRM, crop diversification Improved soil properties and nutrient availability; potential to reduce external fertilizer inputs in the long run [127] PB, RR, CRM, site specific nutrient management (SSNM)…”

Section: Conservation Agriculturementioning

confidence: 99%

Beans with Benefits—The Role of Mungbean (<i>Vigna radiate</i>) in a Changing Environment

Pataczek¹,

Zahir²,

Ahmad³

et al. 2018

AJPS

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Dryland areas are experiencing low agricultural yields due to severe water shortages and salinity, leading to food scarcity. Mungbean (Vigna radiata) is gaining attention as a short-season crop that can tolerate dryland conditions, and fix atmospheric nitrogen, decreasing soil nutrient depletion. It is a source of high-quality protein for human consumption and can serve as a multipurpose crop, if harvest residues are used as fodder or green manure. However, little of this legume's potential has been explored. This review aims to underline the importance of mungbean as an agricultural crop by reviewing relevant literature on the potential contribution of mungbean to food security and a balanced diet as well as the effect of mungbean cultivation on farm income and gender equality. The challenges of climate change in plant production are discussed, and how progress in mungbean breeding and the application of improved cultivation techniques, such as regulated deficit irrigation, conservation agriculture, and inoculation with plant growth promoting rhizobacteria can overcome them.

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Bio-energy, water-use efficiency and economics of maize-wheat-mungbean system under precision-conservation agriculture in semi-arid agro-ecosystem

Cited by 89 publications

References 45 publications

Long term effect of legume intensified crop rotations and tillage practices on productivity and profitability of maize vis-a-vis soil fertility in North-Western Indo-Gangetic Plains of India

Long term effect of legume intensified crop rotations and tillage practices on productivity and profitability of maize vis-a-vis soil fertility in North-Western Indo-Gangetic Plains of India

Impact of legume intensified crop rotations and tillage practices on maize productivity vis-à-vis C and N dynamics of a sandy loam soil in north-western Indo-Gangetic Plains of India

Beans with Benefits—The Role of Mungbean (<i>Vigna radiate</i>) in a Changing Environment

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Bio-energy, water-use efficiency and economics of maize-wheat-mungbean system under precision-conservation agriculture in semi-arid agro-ecosystem

Cited by 89 publications

References 45 publications

Long term effect of legume intensified crop rotations and tillage practices on productivity and profitability of maize vis-a-vis soil fertility in North-Western Indo-Gangetic Plains of India

Long term effect of legume intensified crop rotations and tillage practices on productivity and profitability of maize vis-a-vis soil fertility in North-Western Indo-Gangetic Plains of India

Impact of legume intensified crop rotations and tillage practices on maize productivity vis-à-vis C and N dynamics of a sandy loam soil in north-western Indo-Gangetic Plains of India

Beans with Benefits—The Role of Mungbean (&lt;i&gt;Vigna radiate&lt;/i&gt;) in a Changing Environment

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Beans with Benefits—The Role of Mungbean (<i>Vigna radiate</i>) in a Changing Environment