Carbon sequestrating fertilizers as a tool for carbon sequestration in agriculture under aridisols

Tahir Mukkram Ali; Hamza Ameer; Noor-us-Sabah (Noor-us-Sabah ); Hussain Sajad; Xie Zuoming; Brestic Marian; Rastogi Anshu; Allakhverdiev Suleyman I.; Sarwar Ghulam

doi:10.1007/s42823-022-00368-0

Carbon sequestrating fertilizers as a tool for carbon sequestration in agriculture under aridisols

Carbon Letters
Abbr : Carbon Lett.
2022, 32(7), pp.1631-1644
DOI : 10.1007/s42823-022-00368-0
Publisher : Korean Carbon Society
Research Area : Natural Science > Natural Science General > Other Natural Sciences General
Received : February 16, 2022
Accepted : June 4, 2022
Published : December 1, 2022

Tahir Mukkram Ali ¹, Hamza Ameer ², Noor-us-Sabah ³, Hussain Sajad ⁴, Xie Zuoming ², Brestic Marian ⁵, Rastogi Anshu ⁶, Allakhverdiev Suleyman I. ⁷, Sarwar Ghulam ¹

¹Department of Soil and Environmental Sciences, College of Agriculture, University of Sargodha
²School of Environmental Sciences and Engineering
³Department of Soil and Environmental Sciences, College of Agriculture
⁴College of Agronomy Sichuan Agricultural University
⁵Department of Plant Physiology, Slovak University of Agriculture
⁶Department of Ecology and Environmental Protection, Poznan University of Life Sciences
⁷К.A. Timiryazev Institute of Plant Physiology, Russian Academy of Sciences

Accredited

ABSTRACT

Carbon is a part of all living creatures and it is the chief constructing block for life on this planet carbon occurs in several appearances, mainly as plant biomass, organic matter in soil, as gas CO2 in the air and dissipated in seawater. Soil carbon exhausts when production of carbon increases than carbon contribution. Soil comprises nearly 75% of total carbon existing on land, more than the quantity stockpiled in living animals and plants. So, soil plays a major part in maintaining a stable carbon cycle. Over the previous 150-year-period, the quantity of carbon present in the air has amplified by 30%. Majority of scientists thought that there is a straight relationship amongst amplified levels of CO2 in the air and increasing global warming. One anticipated technique to diminish atmospheric CO2 is to escalate the global packing of carbon in soils. Therefore, there is a necessity to manage soils because soil comprises more inorganic carbon as compared to the atmosphere and more organic carbon as compared to the biosphere. Soil is also thought to be a lively and important constituent in global carbon discharge and potential of sequestration. Carbon sequestration, known commonly as C-storage, can be acquired by different controlling practices, and the size of various management techniques, to enhance C-storage of soil and offer a key basin for atmospheric CO2, can be assessed most persuasively from studies conducted over long time that underwrite exclusive data on soil C accumulation, losses and storage. Sequestration happens when input of carbon enhances as compared to output of carbon. Soil carbon sequestration is the method of relocating CO2 from the air in to the soil with crop leftover and additional organic solids and in a configuration that is not instantly emitted back to the atmosphere. This review focused on beneficial role of carbon sequestrating fertilizers (press mud, boiler ash and compost) in carbon sequestration and soil properties.

KEYWORDS

Carbon sequestration Carbon sequestrating fertilizers Agriculture Aridisols

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Total Citation Counts(KCI+WOS) (5) This is the number of times that the duplicate count has been removed by comparing the citation list of WoS and KCI.

Scopus Citation Counts (4) This is the result of checking the information with the same ISSN, publication year, volume, and start page between articles in KCI and the SCOPUS journals. (as of 2024-07-01)

* References for papers published after 2023 are currently being built.

[journal] Lal R / 2016 / Soil health and carbon management / Food Energy Secur 5(4) : 212~222

[journal] Lal R / 2006 / Enhancing crop yields in the developing countries through restoration of the soil organic carbon pool in agricultural lands local land use strategies in a globalizing world—Man / Social Environ Dyn 17(2) : 197~209

[journal] Khan MJ / 2012 / Sugar industry press mud as alternate organic fertilizer source / Int J Environ Waste Manage 9 : 41~55

[journal] Lal R / 2004 / Soil carbon sequestration impact on global climate change and food security / Science 304 : 1623~1627

[journal] Lal R / 2004 / Carbon emission form farm operations / Environ Int 30 : 981~990

[journal] Kumar S / 2017 / Use of pressmud compost for improving crop productivity and soil health / Int J Chem Stud 5 : 384~389

[journal] Raza QUA / 2021 / Sugarcane industrial byproducts as challenges to environmental safety and their remedies : a review / Water 13 : 3495~3505

[journal] Septyani IUP / 2019 / Utilization of sugarcane filter press mud compost as organic fertilizer for improving chemical properties of ultisols and oil palm seedlings / Trop Subtrop Agroecosyst 22 : 647~653

[journal] Eid EM / 2021 / Modeling of mineral elements uptake and localization in cabbage inflorescence(Brassica oleracea var. capitata)grown on sugar mill pressmud-amended soils / Environ Monit Assess 193 : 586~595

[journal] Tabinda AB / 2021 / A study on recycling and reuse of sugar mill industrial waste / Energy Sources Part A Recov Utiliz Environ Effects 43(14) : 1759~1768

[journal] Rawat J / 2021 / Utilization of pressmud waste as a carrier for enhancing agronomic traits of finger millet / Clean : Soil, Air, Water 49(2) : 2000260~

[journal] González LML / 2020 / Energetic, economic and environmental assessment for the anaerobic digestion of pretreated and codigested press mud / Waste Manage 102 : 249~259

[journal] Wu N / 2022 / Use of sugar cane bagasse ash in ultra-high performance concrete(UHPC)as cement replacement / Constr Build Mater 317 : 125881~

[journal] Ahmad G / 2021 / Impact of the low and high concentrations of fly ash amended soil on growth, physiological response, and yield of pumpkin(Cucurbita moschata Duch. Ex Poiret L. ) / Environ Sci Pollut Res 28(14) : 17068~17083

[confproc] Yavarzadeh MR / 2013 / Safe environment by using fly ash and vermicompost on wheat / International conference on transport, environment and civil engineering, held during : 146~148

[journal] Rautaray SK / 2003 / Effect of fly ash, organic wastes and chemical fertilizers on yield, nutrient uptake, heavy metal content and residual fertility in a rice mustard cropping sequence under arid lateritic soils / Bioresour Tech 90 : 275~283

[journal] Durgude SA / 2018 / Effect of fly ash and bagasse ash on biological properties of soil, nutrient uptake and economics of wheat in an Inceptisol / IJCS 6(4) : 1939~1942

[journal] Farid IM / 2022 / Co-composted biochar derived from rice straw and sugarcane bagasse improved soil properties, carbon balance, and zucchini growth in a sandy soil : a trial for enhancing the health of low fertile arid soils / Chemosphere 292 : 133389~

[web] Amlinger F / 2007 / Beneficial effects of compost application on fertility and productivity of soils / Literature Study, Federal Ministry for Agriculture and Forestry, Environment and Water Management / http://www.umweltnet.at/filemanager/download/20558/

[journal] Sunil K / 2017 / Use of pressmud compost for improving crop productivity and soil health / Int J Chem Stud 5(2) : 384~389

[journal] Aminuddin Q / 2018 / Precision agriculture and carbon sequestration—need of an hour in current climate changing scenario / Int J Cur Micro App Sci 7(2) : 1668~1673

[journal] Barry S / 2002 / Adaptation options in agriculture to climate change : a typology / Mitig Adap Strateg Glob Chang 7 : 85~114

[journal] Padalkar R / 2016 / Assessment of soil carbon level after application of pressmud and mulching regarding soil carbon sequestration / Nat Environ Pollut Technol 15 : 601~604

[journal] Rakkiyappan P / 2001 / Effect of biocompost and enriched press mud on sugarcane yield and quality / Sugar Tech 3(3) : 92~96

[journal] Diaz PM / 2016 / Consequences of compost press mud as fertilizers / Int J Adv Micro Res 1(1) : 28~32

[journal] Samreen S / 2017 / Impact of organic amendments on soil carbon sequestration, water use efficiency and yield of irrigated wheat / Biotechnol Agron Soc Environ 21(1) : 36~49

[journal] Kumar V / 2016 / Effects of sugarcane pressmud on agronomical characteristics of hybrid cultivar of eggplant(Solanum melongena L. )under field conditions / Int J Recycl Org Waste Agric 5 : 149~162

[journal] Gunjal A / 2021 / Management of pressmud(agroindustry by-product)by conversion to value-added products : a review / Proc Indian Natl Sci Acad 87(1) : 11~18

[journal] Naeem U / 2022 / Investigating the effect of Aspergillus niger inoculated press mud(biofertilizer)on the potential of enhancing maize(Zea mays L. )yield, potassium use efficiency and potassium agronomic efficiency / Cereal Res Commun 50(1) : 157~170

[journal] Rajput A / 2022 / Integrated nutrient management in banana : comparative role of fym and composted pressmud for the improvement of soil properties / Pak J Bot 54(1) : 355~362

[journal] Baskaran L / 2009 / Amelioration of sugar mill effluent polluted soil and its effect of green gram(Vigna radiata L. ) / Bot Res Int 2 : 131~135

[journal] Yang SD / 2013 / Effects of vinasse and press mud application on the biological properties of soils and productivity of sugarcane / Sugar Tech 15(2) : 152~158

[journal] Anbarasu S / 2016 / Effect of organic manures incorporation on electro kinetic properties and microbial dynamics in rice soil / Int J Rec Sci Res 7(7) : 12349~12354

[journal] Mahalakshmi S / 2019 / Studies on developing PGPR consortium with improved shelf life / J Pharmacog Phytochem 8 : 545~548

[journal] Baliah NT / 2018 / Phosphate solubilizing bacteria(PSB) : a novel PGPR for sustainable agriculture / Int J Innov Res Sci Eng Technol 7 : 3888~3895

[journal] Sangeetha D / 2012 / Survival of plant growth promoting bacterial inoculants in different carrier materials / Int J Pharm Biol Arch 3 : 170~178

[confproc] Shukla MK / 2003 / Studies on bioutilization of fly ash using leguminous crops’ / Abstract: national symposium on cyanobacteria and plants under environmental stress: responses, defence strategies and biotechnological prospects / B.H.U : 49~

[journal] Muhammad JK / 2008 / Integrated use of boiler ash as organic fertilizer and soil conditioner with NPK in calcareous soil, Songklanakarin / J Sci Technol 30(3) : 281~289

[journal] Tatawat KL / 2002 / Symposium on effect of fly ash on the performance of wheat on ustochrepts of sub humid plains of India / Held Thailand 24 : 1~11

[journal] Panda RB / 2012 / Agricultural utilisation of flyash—a way for sustainable agriculture practice and its environmental significance / Discov Nat 1(1) : 11~14

[journal] Kumar A / 2003 / Impact of pulp and paper mill effluent on lysimetric soil and vegetation used for land treatment / J Sci Ind Res 62(9) : 883~891

[journal] Adriano DC / 2001 / Influence of fly ash on soil physical properties and turf grass establishment / J Environ Qual 30 : 596~601

[journal] Monte MC / 2009 / Waste management from pulp and paper production in the European Union / J Waste Manag 29(1) : 293~308

[journal] Geng X / 2007 / Paper mill sludge as a component of wood adhesive formulation / Holzforschung 61(6) : 688~692

[journal] Hall JL / 2003 / Transition metal transporters in plants / J Exp Bot 54 : 2601~2613

[journal] Sarangi PK / 2001 / Soil biochemical activity and growth response of rice Oryza sativa in flyash amended soil / Bioresour Technol 7 : 199~205

[journal] Lee H / 2006 / Fly ash effect on improving soil properties and rice productivity in Korean paddy soil / Bioresour Technol 97(13) : 1490~1497

[journal] Seleiman M / 2018 / Saline soil properties, quality and productivity of wheat grown with bagasse ash and thiourea in different climatic zones / Chemosphere 193 : 538~546

[journal] Furlani E / 2011 / Sintering and characterisation of ceramics containing paper sludge, glass cullet and different types of clayey materials / J Ceram Int 37 : 1293~1299

[journal] Nilesh KM / 2012 / Effect of fly ash as an admixture in agriculture and the study of heavy metal accumulation in wheat(Triticum aestivum), mung bean(Vigna radiata)and urad beans(Vigna mungo) / Pol J Environ Stud 21(6) : 1713~1719

[journal] Gond SS / 2013 / Growth yield and metal residues in Solanum melongena growth in fly ash amended soils / J Environ Bio 34(3) : 539~544

[journal] Grewal KS / 2001 / Direct and residual effect of flyash application to soil on crop yield and soil properties / Crop Res 2 : 60~65

[journal] Nayak AK / 2014 / Effect of fly ash application on soil microbial response and heavy metal accumulation in soil and rice plant / Ecotoxicol Environ Saf 114 : 257~262

[journal] Sharma SK / 2001 / Flyash incorporation effect on soil health and yield of maize and rice / J Sci Ind Res 60(7) : 580~585

[journal] Pita V / 2012 / Effect of ash from sugarcane bagasse and wood co-combustion on corn growth and soil properties / Arch Agron Soil Sci 58 : 1476~3567

[journal] Atuanya EA / 2012 / Impact of plastic enriched compost on soil structure, fertility and growth of maize plant / Europ J Appl Sci 4 : 105~109

[journal] Hepperly P / 2009 / Compost manure and synthetic fertilizer influence crop yield, soil properties, nitrate leaching and crop nutrient content / J Compost Sci Utiliz 17 : 117~126

[journal] Brar BS / 2015 / Effects of long term application of inorganic and organic fertilizers on soil organic carbon and physical properties in maize-wheat rotation / Agronomy 5 : 220~238

[journal] Sinha SK / 2016 / Effect of integrated use of bio-compost and nitrogen on productivity and soil properties of sugarcane plant–ratoon system in calcareous soil / Sugar Tech 3 : 213~219

[journal] Shehzadi S / 2016 / Soil carbon sequestration, water use efficiency and yield of maize as influenced by organic amendments in irrigated area of North-West Pakistan / Global Adv Res J Agric Sci 5(7) : 249~262

[journal] Dotaniya ML / 2016 / Use of sugarcane industrial by-products for improving sugarcane productivity and soil health / Int J Recycl Org Waste Agric 5 : 185~194

[journal] Rai AK / 2012 / Phosphocompost influences nutrient use efficiency, yield and quality of rice(Orzya Sativa) / Asian J Soil Sci 7 : 172~177

[journal] Manna MY / 2001 / Comparative effectiveness of enriched phosphocompost and chemical fertilizer on crop yields and soil biological activity in an alluvial soil / Ind J Agric Res 35 : 247~250

[journal] Korai PK / 2014 / Effect of sugarcane press mud bio-compost on dry matter yield and nutrient uptake in maize / J Bio Agric Health 4 : 23~30

[journal] Brown S / 2011 / Changes in soil properties and carbon content following compost application : results of on-farm sampling / Com Sci Util 19(1) : 88~97

[journal] Visconti D / 2022 / Compost and microbial biostimulant applications improve plant growth and soil biological fertility of a grassbased phytostabilization system / Environ Geochem Health : 1~21

[journal] Agegnehu G / 2014 / Influence of integrated soil fertility management in wheat and the productivity and soil chemical properties in the highland tropical environment / J Soil Sci Plant Nutr 14(3) : 532~545

[journal] Prapagar K / 2012 / Effect of soil amendments on reclamation of saline-sodic soil / Trop Agric Res 23 : 168~176

[confproc] Paul M / 2001 / Long-term effects of manure compost and mineral fertilizers on soil biological activity as related to soil structure and crop yield / Applying compost—benefits and needs, proc. of a seminar / BMLFUW, European Commission

[journal] Durmuş M / 2022 / The effect of tomato waste compost on yield of tomato and some biological properties of soil / Agronomy 12(6) : 1253~1260

[journal] Tayebeh A / 2010 / Effect of organic and inorganic fertilizers on grain yield and protein banding pattern of wheat / Aus J Crop Sci(AJCS) 4(6) : 384~389

[confproc] Mohammad HG / 2004 / Use of composted organic wastes as alternative to synthetic fertilizers for enhancing crop productivity and agricultural sustainability on the tropical Island of Guam / 13th International soil conservation organization conference—Brisbane

[journal] Laila K / 2011 / Significance of applied cellulose polymer and organic manure for ameliorating hydrophysico-chemical properties of sandy soil and maize yield / Aus J Basic App Sci 5(6) : 23~35

[journal] Sabah NU / 2020 / Role of organic amendments to enhance soil fertility status and wheat growth in salt affected soil / Pak J Agric Res 33(2) : 228~233

[journal] Sabah NU / 2018 / Depicting the role of organic amendments for bio available phosphorus release from different sources of rock Phosphate and uptake by maize crop / Pak J Bot 50(1) : 117~122

[journal] Scotti R / 2015 / Organic amendments sustainable tool to recovery fertility in intensive agricultural systems / J Soil Sci Plant Nutr 15(2) : 333~352

[journal] Schrag DP / 2007 / Preparing to capture carbon / Science 315(5813) : 812~813

[book] Lerman A / 2009 / Encyclopedia of Paleoclimatology and Ancient Environments. Encyclopedia of Earth Sciences Series / Springer

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Carbon Letters 2023 KCI Impact Factor : 1.35 KCI-WoS Impact Factor : 4.82

Carbon sequestrating fertilizers as a tool for carbon sequestration in agriculture under aridisols

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Citation status

This is the result of checking the information with the same ISSN, publication year, volume, and start page between the WoS and the KCI journals. (as of 2024-07-26)

Total Citation Counts(KCI+WOS) (5) This is the number of times that the duplicate count has been removed by comparing the citation list of WoS and KCI.

Scopus Citation Counts (4) This is the result of checking the information with the same ISSN, publication year, volume, and start page between articles in KCI and the SCOPUS journals. (as of 2024-07-01)

* References for papers published after 2023 are currently being built.

Carbon Letters 2023 KCI Impact Factor : 1.35 KCI-WoS Impact Factor : 4.82

Carbon sequestrating fertilizers as a tool for carbon sequestration in agriculture under aridisols

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WoS Citation Counts (5) This is the result of checking the information with the same ISSN, publication year, volume, and start page between the WoS and the KCI journals. (as of 2024-07-26)

Total Citation Counts(KCI+WOS) (5) This is the number of times that the duplicate count has been removed by comparing the citation list of WoS and KCI.

Scopus Citation Counts (4) This is the result of checking the information with the same ISSN, publication year, volume, and start page between articles in KCI and the SCOPUS journals. (as of 2024-07-01)

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