| [1] |
蒋捷媛,李玉昊,陈鹏,等.2023年国际烟草十大新闻[EB/OL].(2024-01-18. )[2024-04-01].https://www.tobaccochina.com/html/focusnews/671834.shtml. |
| [2] |
ARMSTRONG C,ANDERSON K.WHO global report on trends in prevalence of tobacco use 2000—2030[R].Geneva:World Health Organization,2024. |
| [3] |
周茹.烟草多用途利用:前景广阔 未来可期[J].中国烟草,2023(20):71-77. |
| [4] |
王金棒.烟草多用途利用创新战略研究报告[R].郑州:中国烟草总公司郑州烟草研究院,2023. |
| [5] |
BUNTIĆ A V,MILIĆ M D,STAJKOVIĆ-SRBINOVIĆ O S,et al.Cellulase production by Sinorhizobium meliloti strain 224 using waste tobacco as substrate[J].International Journal of Environmental Science and Technology,2019,16(10):5881-5890. |
| [6] |
BUNTIĆ A V,STAJKOVIĆ-SRBINOVIĆ O,DELIĆ D,et al.The production of cellulase from the waste tobacco residues remaining after polyphenols and nicotine extraction and bacterial pre-treatment[J].Journal of the Serbian Chemical Society,2019,84(2):129-140. |
| [7] |
FATICA A,DI LUCIA F,MARINO S,et al.Study on analytical characteristics of Nicotiana tabacum L.,cv.Solaris biomass for potential uses in nutrition and biomethane production[J].Scientific Reports,2019,9(1):16828. |
| [8] |
BARLA F G,KUMAR S.Tobacco biomass as a source of advanced biofuels[J].Biofuels,2019,10(3):335-346. |
| [9] |
CARDOSO C R,ATAÍDE C H.Micropyrolysis of tobacco powder at 500 ℃:Influence of ZnCl2 and MgCl2 Contents on the generation of products[J].Chemical Engineering Communications,2015,202(4):484-492. |
| [10] |
CARDOSO C R,ATAÍDE C H.Analytical pyrolysis of tobacco residue:Effect of temperature and inorganic additives[J].Journal of Analytical and Applied Pyrolysis,2013,99:49-57. |
| [11] |
SALETNIK B,FIEDUR M,KWARCIANY R,et al.Pyrolysis as a method for processing of waste from production of cultivated tobacco (Nicotiana tabacum L.)[J].Sustainability,2024,16(7):2749. |
| [12] |
SARBISHEI S,GOSHADROU A,HATAMIPOUR M S.Mild sodium hydroxide pretreatment of tobacco product waste to enable efficient bioethanol production by separate hydrolysis and fermentation[J].Biomass Conversion and Biorefinery,2021,11(6):2963-2973. |
| [13] |
SOPHANODORN K,UNPAPROM Y,WHANGCHAI K,et al.Environmental management and valorization of cultivated tobacco stalks by combined pretreatment for potential bioethanol production[J].Biomass Conversion and Biorefinery,2022,12(5):1627-1637. |
| [14] |
FARRAN I,FERNANDEZ-SAN MILLAN A,ANCIN M,et al.Increased bioethanol production from commercial tobacco cultivars overexpressing thioredoxin f grown under field conditions[J].Molecular Breeding,2014,34(2):457-469. |
| [15] |
GONZÁLEZ-GONZÁLEZ A,CUADROS F.Optimal and cost-effective industrial biomethanation of tobacco[J].Renewable Energy,2014,63:280-285. |
| [16] |
AYAS N,KARADENIZ S.Hydrogen from tobacco waste[C]//IEEE. 2017 2nd International Conference Sustainable and Renewable Energy Engineering (ICSREE).Hiroshima:IEEE,2017:78-82. |
| [17] |
ZHAO G H,YU Y L,ZHOU X T,et al.Effects of drying pretreatment and particle size adjustment on the composting process of discarded flue-cured tobacco leaves[J].Waste Management & Research,2017,35(5):534-540. |
| [18] |
HERNER Ž,KU AČG IĆ D,ZELIĆ B.Biodegradation of imidacloprid by composting process[J].Chemical Papers,2017,71(1):13-20. |
| [19] |
SEREMETA D C H,DA SILVA C P,ZITTEL R,et al.Pb2+ adsorption by a compost obtained from the treatment of tobacco from smuggled cigarettes and industrial sewage sludge[J].Environmental Science and Pollution Research,2019,26(1):797-805. |
| [20] |
MANDIĆ N,LALEVIĆ B,RAI AČG EVIĆ V,et al.Impact of composting conditions on the nicotine degradation rate using nicotinophilic bacteria from tobacco waste[J].International Journal of Environmental Science and Technology,2023,20(7):7787-7798. |
| [21] |
ESCUDERO L B,AGOSTINI E,DOTTO G L.Application of tobacco hairy roots for the removal of malachite green from aqueous solutions:Experimental design,kinetic,equilibrium,and thermodynamic studies[J].Chemical Engineering Communications,2018,205(1):122-133. |
| [22] |
AMIRIPOUR F,GHASEMI S,CHAICHI M J.Nanostructured rhodamine B/aluminosilicate extracted sugarcane bagasse modified with tobacco-derived carbon quantum dot as ratiometric fluorescence probe for determination of tetracycline[J].Talanta,2024,276:126158. |
| [23] |
GONÇALVES A C Jr,ZIMMERMANN J,SCHWANTES D,et al.Recycling of tobacco wastes in the development of ultra-high surface area activated carbon[J].Journal of Analytical and Applied Pyrolysis,2023,171:105965. |
| [24] |
PATHAK M,ROUT C S.Flexible all-solid-state asymmetric supercapacitor based on in situ-grown bimetallic metal sulfides/Ti3C2Tx MXene nanocomposite on carbon cloth via a facile hydrothermal method[J].Journal of Electronic Materials,2023,52(3):1668-1680. |
| [25] |
JOKIĆ S,GAGIĆ T,KNEZ Ž,et al.Separation of active compounds from tobacco waste using subcritical water extraction[J].The Journal of Supercritical Fluids,2019,153:104593. |
| [26] |
KUNG S D,SAUNDER J A,TSO T C,et al.Tobacco as a potential food source and smoke material:Nutritional evaluation of tobacco leaf protein[J].Journal of Food Science,1980,45(2):320-322. |
| [27] |
DANEHOWER D A.A rapid method for the isolation and quantification of the sucrose esters of tobacco[C]//NCSU. Centre de Coopération pour les Recherches Scientifiques Relatives au Tabac/Cooperation Centre for Scientific Research Relative to Tobacco,1987:32-35. |
| [28] |
JAGENDORF A T,WILDMAN S G.The proteins of green leaves.Ⅵ.centrifugal fractionation of tobacco leaf homogenates and some properties of isolated chloroplasts[J].Plant Physiology,1954,29(3):270-279. |
| [29] |
PIERPOINT W S.Mitochondrial preparations from the leaves of tobacco (Nicotiana tabacum).2.Oxidative phosphorylation[J].Biochemical Journal,1960,75(3):504-511. |
| [30] |
PIERPOINT W S.Mitochondrial preparations from the leaves of tobacco (Nicotiana tabacum).433.Glycollic oxidase and fumarase activity[J].Biochemical Journal,1960,75(3):511-515. |
| [31] |
QUIK M,HUANG L Z,PARAMESWARAN N,et al.Multiple roles for nicotine in Parkinson’s disease[J].Biochemical Pharmacology,2009,78(7):677-685. |
| [32] |
WWexner Medical Center.Clinical study asks:Can nicotine help treat a chronic lung disease?[EB/OL].(2017-08-28)[2024-04-02].https://wexnermedical.osu.edu/mediaroom/pressreleaselisting/nicotinepatchstudy. |
| [33] |
RINCÓN J,DE LUCAS A,GARCÍA M A,et al.Preliminary study on the supercritical carbon dioxide extraction of nicotine from tobacco wastes[J].Separation Science and Technology,1998,33(3):411-423. |
| [34] |
TITA G J,NAVARRETE A,MARTÍN Á,et al.Model assisted supercritical fluid extraction and fractionation of added-value products from tobacco scrap[J].The Journal of Supercritical Fluids,2021,167:105046. |
| [35] |
BANOŽIĆ M,GAGIĆ T, AČG OLNIK M,et al.Sequence of supercritical CO2 extraction and subcritical H2O extraction for the separation of tobacco waste into lipophilic and hydrophilic fractions[J].Chemical Engineering Research and Design,2021,169:103-115. |
| [36] |
NG L K,HUPÉ M.Effects of moisture content in cigar tobacco on nicotine extraction Similarity between Soxhlet and focused open-vessel microwave-assisted techniques[J].Journal of Chromatography A,2003,1011(1/2):213-219. |
| [37] |
HOSSAIN M M,SCOTT I M,BERRUTI F,et al.Optimizing pyrolysis reactor operating conditions to increase nicotine recovery from tobacco leaves[J].Journal of Analytical and Applied Pyrolysis,2015,112:80-87. |
| [38] |
HOSSAIN M M,SCOTT I M,BERRUTI F,et al.A two-dimensional pyrolysis process to concentrate nicotine during tobacco leaf bio-oil production[J].Industrial Crops and Products,2018,124:136-141. |
| [39] |
DE LUCAS A,CAÑIZARES P,GARCÍA M A,et al.Recovery of nicotine from aqueous extracts of tobacco wastes by an H+-form strong-acid ion exchanger[J].Industrial & Engineering Chemistry Research,1998,37(12):4783-4791. |
| [40] |
FATHI R M,FAUZANTORO A,RAHMAN S F,et al.Column chromatography isolation of nicotine from tobacco leaf extract (Nicotiana tabaccum L.)[C]//AIP.Proceedings of the International Symposium of Biomedical Engineering (ISBE)2017.Bali:AIP,2018,1933:030011. |
| [41] |
RUIZ-RODRIGUEZ A,BRONZE M R,DA PONTE M N.Supercritical fluid extraction of tobacco leaves:A preliminary study on the extraction of solanesol[J].The Journal of Supercritical Fluids,2008,45(2):171-176. |
| [42] |
SAFITRA E R,MUHARAM Y,FARIZAL,et al.Solanesol sequential extraction from tobacco leaves using microwave-ultrasound-assisted extraction (MUAE):MAE optimization[J].Current Research in Green and Sustainable Chemistry,2024,8:100393. |
| [43] |
MACHADO P A,FU H,KRATOCHVIL R J,et al.Recovery of solanesol from tobacco as a value-added byproduct for alternative applications[J].Bioresource Technology,2010,101(3):1091-1096. |
| [44] |
SHIFFLETT J R,WATSON L,MCNALLY D J,et al.Analysis of the polyphenols of tobacco using pressurized liquid extraction(PLE) and ultra performance liquid chromatography with electrospray ionization-tandem mass spectometric detection (UPLC-ESI-MS/MS)[J].Beiträge Zur Tabakforschung International,2017,27(8):195-207. |
| [45] |
KARABEGOVIĆ I T,VELJKOVIĆ V B,LAZIĆ M L.Ultrasound-assisted extraction of total phenols and flavonoids from dry tobacco (Nicotiana tabacum) leaves[J].Natural Product Communications,2011,6(12):1855-1856. |
| [46] |
DOCHEVA M,DAGNON S,STATKOVA S,et al.Isolation of bioflavonoids from tobacco[J].Trakia Journal of Science,2012,10:79-83. |
| [47] |
BANOŽIĆ M,BANJARI I,JAKOVLJEVIĆ M,et al.Optimization of ultrasound-assisted extraction of some bioactive compounds from tobacco waste[J].Molecules,2019,24(8):1611. |
| [48] |
DOCHEVA M,DAGNON S,STATKOVA-ABEGHE S.Flavonoid content and radical scavenging potential of extracts prepared from tobacco cultivars and waste[J].Natural Product Research,2014,28(17):1328-1334. |
| [49] |
TSIBRANSKA I,KARABOJIKOVA V,JELIAZKOV J R.Concentration of flavonoids in ethanolic extracts from tobacco leaves through nanofiltration[J].Bulgarian Chemical Communications,2016,48(2):232-237. |
| [50] |
TSO T,LOWE R H,DEJONG D W.Homogenized leaf curing:I.theoreticai basis and some preliminary results[J].Beiträge zur Tabakforschung/Contributions to Tobacco Research,1975,8:44-51. |
| [51] |
FU H,MACHADO P A,HAHM T S,et al.Recovery of nicotine-free proteins from tobacco leaves using phosphate buffer system under controlled conditions[J].Bioresource Technology,2010,101(6):2034-2042. |
| [52] |
FÍLA J,HONYS D.Phosphoprotein enrichment from tobacco mature pollen crude protein extract[J].Methods in Molecular Biology,2017,1669:265-274. |
| [53] |
SEVERSON R F,ARRENDALE R F,CHORTYK O T,et al.Isolation and characterization of the sucrose esters of the cuticular waxes of green tobacco leaf[J].Journal of Agricultural and Food Chemistry,1985,33(5):870-875. |
| [54] |
ASHRAF-KHORASSANI M,TAYLOR L T,NAZEM N,et al.Isolation of Tetra-acyl sucrose esters from Turkish tobacco using supercritical fluid CO2 and comparison with conventional solvent extraction[J].Journal of Agricultural and Food Chemistry,2005,53(6):1866-1872. |
| [55] |
POPOVA V,GOCHEV V,GIROVA T,et al.Extraction products from tobacco-aroma and bioactive compounds and activities[J].Current Bioactive Compounds,2015,11(1):31-37. |
| [56] |
MISSAOUI B,KRAFFT J M,HAMDI N,et al.Valorizing industrial tobacco wastes within natural clays and chitosan nanocomposites for an ecofriendly insecticide[J].Waste Management,2023,168:146-155. |
| [57] |
MURATA M,NAKAI Y,KAWAZU K,et al.Loliolide,a carotenoid metabolite,is a potential endogenous inducer of herbivore resistance[J].Plant Physiology,2019,179(4):1822-1833. |
| [58] |
BAXTER A A,POON I K H,HULETT M D.The plant defensin NaD1 induces tumor cell death via a non-apoptotic,membranolytic process[J].Cell Death Discovery,2017,3(1):16102. |
| [59] |
FATICA A,FANTUZ F,DI LUCIA F,et al.Ensiled biomass of Solaris tobacco variety used as forage:Chemical characteristics and effects on growth,welfare,and follow-up of Holstein heifers[J].Animal,2021,15(7):100235. |
| [60] |
CHANDLER J P,GERRARD M W,VIGNEAUD V D.The utilization for animal growth of tobacco mosaic virus as a sole source of protein in the diet[J].Journal of Biological Chemistry,1947,171(2):823-828. |
| [61] |
KAJITA S,ISHIFUJI M,OUGIYA H,et al.Improvement in pulping and bleaching properties of xylem from transgenic tobacco plants[J].Journal of the Science of Food and Agriculture,2002,82(10):1216-1223. |
| [62] |
AKGüL M,UNER B,ÇAMLIBEL O,et al.Manufacture of medium density fiberboard(MDF) panels from agribased lignocellulosic biomass[J].Wood Research,2017,62(4):615-624. |
| [63] |
OVALI S.Characterization of waste Nicotiana rustica L.(tobacco) fiber having a potential in textile and composite applications[J].Polymers,2024,16(8):1117. |
| [64] |
MUVHIIWA R,MAWERE E,MOYO L B,et al.Utilization of cellulose in tobacco(Nicotiana tobacum) stalks for nitrocellulose production[J].Heliyon,2021,7(7):e07598. |
| [65] |
KAJITA S,KATAYAMA Y,OMORI S.Alterations in the biosynthesis of lignin in transgenic plants with chimeric genes for 4-coumarate:Coenzyme a ligase[J].Plant & Cell Physiology,1996,37(7):957-965. |
| [66] |
KAJITA S,MASHINO Y,NISHIKUBO N,et al.Immunological characterization of transgenic tobacco plants with a chimeric gene for 4-coumarate:CoA ligase that have altered lignin in their xylem tissue[J].Plant Science,1997,128(1):109-118. |
| [67] |
KAJITA S,HISHIYAMA S,TOMIMURA Y,et al.Structural characterization of modified lignin in transgenic tobacco plants in which the activity of 4-coumarate:Coenzyme A ligase is depressed[J].Plant Physiology,1997,114(3):871-879. |
| [68] |
SHAKHES J,MARANDI M A B,ZEINALY F,et al.Tobacco residuals as promising lignocellulosic materials for pulp and paper industry[J].BioResources,2011,6(4):4481-4493. |
| [69] |
JIMENEZ J P,ACDA M N,RAZAL R A,et al.Influence of mixing waste tobacco stalks and paper mulberry wood chips on the physico-mechanical properties,formaldehyde emission,and termite resistance of particleboard[J].Industrial Crops and Products,2022,187:115483. |
| [70] |
AKPINAR O,ERDOGAN K,BOSTANCI S.Enzymatic production of xylooligosaccharide from selected agricultural wastes[J].Food and Bioproducts Processing,2009,87(2):145-151. |
| [71] |
AKPINAR O,ERDOGAN K,BAKIR U,et al.Comparison of acid and enzymatic hydrolysis of tobacco stalk xylan for preparation of xylooligosaccharides[J].LWT-Food Science and Technology,2010,43(1):119-125. |
| [72] |
SANTANA M B,GAMA F Á,PEREIRA I O,et al.Harnessing tobacco stem biomass for eco-friendly xylo-oligomers production via hydrothermal treatment and succinic acid via fermentation[J].Journal of Cleaner Production,2024,456:142305. |
| [73] |
SANTANA M B,SOARES L B,ZANELLA E,et al.Hydrothermal pretreatment for the production of prebiotic oligosaccharides from tobacco stem[J].Bioresource Technology,2023,382:129169. |
| [74] |
FENG Q W,WANG B,ZIMMERMAN A R.Application of C and N isotopes to the study of biochar biogeochemical behavior in soil:A review[J].Earth-Science Reviews,2024,256:104860. |
| [75] |
SHARMA R K,WOOTEN J B,BALIGA V L,et al.Characterization of char from the pyrolysis of tobacco[J].Journal of Agricultural and Food Chemistry,2002,50(4):771-783. |
| [76] |
STREZOV V,POPOVIC E,FILKOSKI R V,et al.Assessment of the thermal processing behavior of tobacco waste[J].Energy & Fuels,2012,26(9):5930-5935. |
| [77] |
ONOREVOLI B,DA SILVA MACIEL G P,MACHADO M E,et al.Characterization of feedstock and biochar from energetic tobacco seed waste pyrolysis and potential application of biochar as an adsorbent[J].Journal of Environmental Chemical Engineering,2018,6(1):1279-1287. |
| [78] |
BOOKER C J,BEDMUTHA R,SCOTT I M,et al.Bioenergy Ⅱ:Characterization of the pesticide properties of tobacco bio-oil[J].International Journal of Chemical Reactor Engineering,2010,8(1):A26. |
| [79] |
BOOKER C J,BEDMUTHA R,VOGEL T,et al.Experimental investigations into the insecticidal,fungicidal,and bactericidal properties of pyrolysis bio-oil from tobacco leaves using a fluidized bed pilot plant[J].Industrial & Engineering Chemistry Research,2010,49(20):10074-10079. |