Drying Technologies: Vehicle to High-Quality Herbs

Herbs are usually marketed as dry due to a consumer demand beyond their seasonality; dehydration leads to a stable, easily moveable product that is available throughout the year. The process of drying, though, leads to modifications in the appearance, composition and quality of the raw material. The extent of these alterations depends on the applied drying methodology and its parameters, rendering the optimization of this process imperative. Numerous studies examining the effect of drying on the main characteristics of herbs have been published in recent years, and this review aims at organizing the available information of the studied herbs, drying methods and measured parameters in a comprehensive manner. Primarily, since aroma is the main characteristic of herbs and the principal aim for the end product is to retain the raw material’s character, this review will focus on the most widely studied effect of drying, which is the essential oil yield and composition. Secondly, results from various studies on the influence of drying on biochemical compounds, organoleptic properties of dried herbs are also presented. The most common approach to the study of drying kinetics is also presented. Finally, novel technologies targeting to minimize the magnitude of changes from the raw material are described.

[1]  M. Rahmat,et al.  Influence of Drying Methods, Extraction Time, and Organ Type on Essential Oil Content of Rosemary (Rosmarinus officinalis L.) , 2009 .

[2]  A. Abutalebi,et al.  Effect of Drying Method on the Essential Oil Quantity of Basil (Ocimum basilicum L.) , 2012 .

[3]  Meenakshi Singh,et al.  Effect of drying methods on the flavour quality of marjoram (Oreganum majorana L.) , 1997 .

[4]  B. Özbek,et al.  Thin-layer drying characteristics and modelling of mint leaves undergoing microwave treatment , 2007 .

[5]  M. Komaitis,et al.  Investigation of the antioxidant behavior of air- and freeze-dried aromatic plant materials in relation to their phenolic content and vegetative cycle. , 2008, Journal of agricultural and food chemistry.

[6]  F. Vinci,et al.  Influence of different drying parameters on the composition of volatile compounds of thyme and rosemary cultivated in Sardinia , 2007 .

[7]  Ilknur Alibas,et al.  Energy Consumption and Colour Characteristics of Nettle Leaves during Microwave, Vacuum and Convective Drying , 2007 .

[8]  L. Craker,et al.  Effects of drying methods on qualitative and quantitative properties of essential oil of two basil landraces. , 2013, Food chemistry.

[9]  Juan A. Cárcel,et al.  Modeling Ultrasonically Assisted Convective Drying of Eggplant , 2011 .

[10]  Mehmet Pala,et al.  Drying characteristics of dill and parsley leaves , 2006 .

[11]  O. Campanella,et al.  10 Food Dehydration , 2007 .

[12]  M. Özcan,et al.  Evaluation of drying methods with respect to drying parameters, some nutritional and colour characteristics of peppermint (Mentha x piperita L.) , 2010 .

[13]  W. Ternes,et al.  Antioxidative constituents of Rosmarinus officinalis and Salvia officinalis. III. Stability of phenolic diterpenes of rosemary extracts under thermal stress as required for technological processes. , 1992, Zeitschrift fur Lebensmittel-Untersuchung und -Forschung.

[14]  M. Özcan,et al.  Evaluation of Drying Methods with Respect to Drying Kinetics, Mineral Content, and Color Characteristics of Savory Leaves , 2012, Food and Bioprocess Technology.

[15]  M. Díaz-Maroto,et al.  IMPACT OF DRYING AND STORAGE TIME ON SENSORY CHARACTERISTICS OF ROSEMARY (ROSMARINUS OFFICINALIS L.) , 2007 .

[16]  Ricardo Henrique Silva Santos,et al.  Influência da temperatura do ar de secagem sobre o teor e a composição química do óleo essencial de Lippia alba (Mill) N. E. Brown , 2006 .

[17]  A. Sarimeseli Microwave drying characteristics of coriander (Coriandrum sativum L.) leaves , 2011 .

[18]  A. Figiel,et al.  Effects of Drying Methods on the Composition of Thyme (Thymus vulgaris L.) Essential Oil , 2013 .

[19]  W. Huisman,et al.  Effect of Drying on the Color of Tarragon (Artemisia dracunculus L.) Leaves , 2011 .

[20]  Enrique Riera,et al.  Influence of the Applied Acoustic Energy on the Drying of Carrots and Lemon Peel , 2009 .

[21]  V. Demir,et al.  Mathematical Modelling and the Determination of Some Quality Parameters of Air-dried Bay Leaves , 2004 .

[22]  R. Omidbaigi,et al.  Effect of Drying Methods on the Essential Oil Content and Composition of Tanacetum parthenium (L.) Schultz Bip cv. Zardband , 2007 .

[23]  José V. García-Pérez,et al.  Food process innovation through new technologies: Use of ultrasound , 2012 .

[24]  A. Figiel,et al.  Volatile composition of sweet basil essential oil (Ocimum basilicum L.) as affected by drying method , 2012 .

[25]  F. Limam,et al.  Qualitative and quantitative changes in the essential oil of Laurus nobilis L. leaves as affected by different drying methods , 2011 .

[26]  M. Díaz-Maroto,et al.  Changes produced in the aroma compounds and structural integrity of basil (Ocimum basilicum L) during drying , 2004 .

[27]  Ali Motevali,et al.  Drying kinetics of dill leaves in a convective dryer , 2013 .

[28]  A. Rezaeinodehi,et al.  Effect of drying temperature on essential oil content and composition of sweet wormwood (Artemisia annua) growing wild in Iran. , 2008, Pakistan journal of biological sciences : PJBS.

[29]  Petras Rimantas Venskutonis,et al.  Effect of drying on the volatile constituents of thyme (Thymus vulgaris L.) and sage (Salvia officinalis L.) , 1997 .

[30]  L. Rao,et al.  Effect of microwave drying on the phytochemical composition of volatiles of ginger , 2012 .

[31]  Joachim Müller Convective drying of medicinal, aromatic and spice plants: a review , 2007 .

[32]  G. Reisinger,et al.  Development of a greenhouse-type solar dryer for medicinal plants and herbs , 1989 .

[33]  Derya Arslan,et al.  Evaluation of drying methods with respect to drying kinetics, mineral content and colour characteristics of rosemary leaves , 2008 .

[34]  O. A. Bovi,et al.  DRYING TEMPERATURE EFFECTS IN ROSEMARY ESSENTIAL OIL CONTENT AND COMPOSITION , 2002 .

[35]  Ashu Gulati,et al.  Application of microwave energy in the manufacture of enhanced-quality green tea. , 2003, Journal of agricultural and food chemistry.

[36]  Yau Yan Lim,et al.  Effects of different drying methods on the antioxidant properties of leaves and tea of ginger species , 2009 .

[37]  Artur Wiktor,et al.  Selected Emerging Technologies to Enhance the Drying Process: A Review , 2014 .

[38]  E. Chan,et al.  Antioxidant and antibacterial properties of some fresh and dried Labiatae herbs , 2012 .

[39]  J. Gallego‐Juárez,et al.  Ultrasonic-Assisted Convective Drying of Apple Slices , 2012 .

[40]  Atul Sharma,et al.  Solar-energy drying systems: A review , 2009 .

[41]  R. Nani,et al.  Changes in the chemical composition of basil caused by different drying procedures. , 2003, Journal of agricultural and food chemistry.

[42]  E. Akpinar Mathematical modelling of thin layer drying process under open sun of some aromatic plants , 2006 .

[43]  T. A. Beek,et al.  Loss of essential oil of tarragon (Artemisia dracunculus L.) due to drying , 2006 .

[44]  Serm Janjai,et al.  Solar Drying Technology , 2012, Food Engineering Reviews.

[45]  Enrique Riera,et al.  Influence of High-Intensity Ultrasound on Drying Kinetics of Persimmon , 2007 .

[46]  J. Mastelić,et al.  The impact of both the season of collection and drying on the volatile constituents of Origanum vulgare L. ssp. hirtum grown wild in Croatia , 2001 .

[47]  W. Yi,et al.  Effects of Drying and Extraction Conditions on the Biochemical Activity of Selected Herbs , 2011 .

[48]  T. Durance,et al.  Flavor volatiles and physical properties of vacuum-microwave- and air-dried sweet basil (Ocimum basilicum L.). , 1999, Journal of agricultural and food chemistry.

[49]  W. Grosch,et al.  Hay-like off-flavour of dry parsley , 1998 .

[50]  S. Bourgou,et al.  Total Phenolics, Flavonoids, and Antioxidant Activity of Sage (Salvia officinalis L.) Plants as Affected by Different Drying Methods , 2013, Food and Bioprocess Technology.

[51]  H. Majeed,et al.  ANALYSIS WITH EVALUATION OF DRYING TEMPERATURE ON ESSENTIAL OIL CONTENT OF ACHILLEA FRAYRANTISSIMA L. AND ARTEMISIA HERB-ALBA L. , 2013 .

[52]  Rimantas Venskutonis,et al.  Influence of drying and irradiation on the composition of volatile compounds of thyme (Thymus vulgaris L.) , 1996 .

[53]  O. Headley,et al.  Evaluation of solar dried thyme (Thymus vulgaris Linne) herbs , 1999 .

[54]  M. V. Mendoza,et al.  Effect of fixed bed drying on the retention of phenolic compounds, anthocyanins and antioxidant activity of roselle (Hibiscus sabdariffa L.) , 2012 .

[55]  S. A. H. Goli,et al.  Evaluation of six drying treatments with respect to essential oil yield, composition and color characteristics of Thymys daenensis subsp. daenensis. Celak leaves , 2013 .

[56]  J. Bartley,et al.  Effects of drying on flavour compounds in Australian-grown ginger (Zingiber officinale). , 2000 .

[57]  E. Ibáñez,et al.  Supercritical fluid extraction and fractionation of different preprocessed rosemary plants. , 1999, Journal of agricultural and food chemistry.

[58]  Joachim Müller,et al.  Microwave drying of medicinal and aromatic plants , 2007 .

[59]  Qing-Han Gao,et al.  Effect of drying of jujubes ( Ziziphus jujuba Mill.) on the contents of sugars, organic acids, α-tocopherol, β-carotene, and phenolic compounds. , 2013, Journal of agricultural and food chemistry.

[60]  Weibiao Zhou,et al.  Characterization of microwave vacuum drying and hot air drying of mint leaves (Mentha cordifolia Opiz ex Fresen). , 2009 .

[61]  Mohammad B. Hossain,et al.  Effect of drying method on the antioxidant capacity of six Lamiaceae herbs , 2010 .

[62]  Cristina Ratti,et al.  Hot air and freeze-drying of high-value foods : a review , 2001 .

[63]  G. Williamson,et al.  The impact of food processing in phytochemicals: the case of antioxidants. , 2003 .

[64]  R. Huopalahti,et al.  Effect of hot air and freeze drying on the volatile compounds of dill (Anethum graveolens L.) herb , 1985 .

[65]  W. Ternes,et al.  Antioxidative constituents ofRosmarinus officinalis andSalvia officinalis , 1995 .

[66]  J. van Staden,et al.  Assessing African medicinal plants for efficacy and safety: agricultural and storage practices. , 2004, Journal of ethnopharmacology.

[67]  M. Díaz-Maroto,et al.  Influence of drying on the flavor quality of spearmint (Mentha spicata L.). , 2003, Journal of agricultural and food chemistry.

[68]  A. Wiktor,et al.  Selected chemical and physico-chemical properties of microwave-convective dried herbs , 2013 .

[69]  L. Sipos,et al.  Effect of different drying techniques on the aroma profile of Thymus vulgaris analyzed by GC–MS and sensory profile methods , 2013 .

[70]  L. Hyvönen,et al.  Effects of drying method, packaging, and storage temperature and time on the quality of dill (Anethum graveolens L.) , 1989 .

[71]  F. Limam,et al.  Drying Sage (Salvia officinalis L.) Plants and Its Effects on Content, Chemical Composition, and Radical Scavenging Activity of the Essential Oil , 2012, Food and Bioprocess Technology.

[72]  R. González-García,et al.  Ultrasonic Assisted Pre-Treatment Method for Enhancing Mass Transfer During the Air-Drying of Habanero Chili Pepper (Capsicum chinense) , 2013 .

[73]  R. K. Goyal,et al.  Thin layer convective drying of mint leaves , 2011 .

[74]  A. Lebert,et al.  Effect of Pretreatments and Drying Conditions on Drying Rate and Colour Retention of Basil (Ocimum basilicum) , 1993 .

[75]  T. Durance,et al.  Headspace Volatiles and Physical Characteristics of Vacuum‐microwave, Air, and Freeze‐dried Oregano (Lippia berlandieri Schauer) , 2000 .

[76]  Hernani,et al.  FREEZE DRYING CHARACTERISTICS OF MEDICINAL HERBS , 2001 .

[77]  A. Figiel,et al.  Composition of oregano essential oil (Origanum vulgare) as affected by drying method. , 2010 .

[78]  Juming Tang,et al.  Microwave Drying of Food and Agricultural Materials: Basics and Heat and Mass Transfer Modeling , 2012, Food Engineering Reviews.

[79]  B. Bhandari,et al.  Drying of Lemon Myrtle (Backhousia citriodora) Leaves: Retention of Volatiles and Color , 2009 .

[80]  J. V. García-Pérez,et al.  Improvement of Convective Drying of Carrot by Applying Power Ultrasound—Influence of Mass Load Density , 2011 .

[81]  Arif Hepbasli,et al.  Mathematical modelling of drying of bay leaves , 2005 .

[82]  Enrico Bignetti,et al.  Exploring New Frontiers in Total Food Quality Definition and Assessment: From Chemical to Neurochemical Properties , 2008 .

[83]  Y. Soysal,et al.  Microwave Drying Characteristics of Parsley , 2004 .

[84]  Zacharias B. Maroulis,et al.  The effect of the method of drying on the colour of dehydrated products , 2001 .

[85]  K. Svoboda Effect of drying regime on volatile oil and microflora of aromatic plants , 1992 .

[86]  M. Díaz-Maroto,et al.  Effect of different drying methods on the volatile components of parsley (Petroselinum crispum L.) , 2002 .

[87]  F. Sefidkon,et al.  Influence of drying and extraction methods on yield and chemical composition of the essential oil of Satureja hortensis , 2006 .

[88]  Y. Sallam,et al.  Lemongrass (Cymbopogon citratus) essential oil as affected by drying methods , 2012 .

[89]  J. Rohloff,et al.  Effect of harvest time and drying method on biomass production, essential oil yield, and quality of peppermint (Mentha x piperita L.). , 2005, Journal of agricultural and food chemistry.

[90]  M. D. Luque de Castro,et al.  Towards more rational techniques for the isolation of valuable essential oils from plants , 1999 .

[91]  Joachim Müller,et al.  Changes of essential oil content and composition during convective drying of lemon balm (Melissa officinalis L.) , 2014 .

[92]  R. Boggia,et al.  DEHYDRATION OF PDO GENOVESE BASIL LEAVES (OCIMUM BASILICUM MAXIMUM L. CV GENOVESE GIGANTE) BY DIRECT OSMOSIS , 2013 .

[93]  K. Peter,et al.  2 – The functional role of herbal spices , 2004 .

[94]  A. Figiel,et al.  Effect of Drying Methods on the Quality of the Essential Oil of Spearmint Leaves (Mentha spicata L.) , 2011 .

[95]  Joachim Müller,et al.  Long-term effects of drying conditions on the essential oil and color of tarragon leaves during storage , 2007 .

[96]  J. Igbeka,et al.  Osmotic Dehydration of Tropical Fruits and Vegetables , 2007 .

[97]  A. Hassani,et al.  Drying Method Affects Essential Oil Content and Composition of Basil (Ocimum basilicum L.) , 2010 .

[98]  I. Doymaz,et al.  DRYING OF THYME (THYMUS VULGARIS L.) AND SELECTION OF A SUITABLE THIN-LAYER DRYING MODEL , 2011 .

[99]  E. Akpinar,et al.  DRYING OF PARSLEY LEAVES IN A SOLAR DRYER AND UNDER OPEN SUN: MODELING, ENERGY AND EXERGY ASPECTS , 2011 .

[100]  Bijesh Puthusseri,et al.  Carotenoid content, its stability during drying and the antioxidant activity of commercial coriander (Coriandrum sativum L.) varieties , 2012 .

[101]  F. Shahidi,et al.  Novel antioxidants in food quality preservation and health promotion. , 2010 .

[102]  F. Kazemi,et al.  Influence of drying methods on the essential oil content and composition of Roman chamomile , 2004 .

[103]  J. Ahmed,et al.  Drying Characteristics and Product Quality of Coriander Leaves , 2001 .

[104]  B. Tiwari,et al.  Handbook of plant food phytochemicals: sources, stability and extraction. , 2013 .

[105]  Harjinder Singh,et al.  Enthalpy entropy compensation during thermal degradation of chlorophyll in mint and coriander puree , 2008 .

[106]  E. Akpinar,et al.  Drying of mint leaves in a solar dryer and under open sun: modelling, performance analyses. , 2010 .

[107]  A. G. Pirbalouti,et al.  Effects of drying methods on qualitative and quantitative of the essential oil of Bakhtiari savory (Satureja bachtiarica Bunge.) , 2013 .

[108]  M. Díaz-Maroto,et al.  Effect of drying method on the volatiles in bay leaf (Laurus nobilis L.). , 2002, Journal of agricultural and food chemistry.

[109]  A. Figiel,et al.  Effects of vacuum level and microwave power on rosemary volatile composition during vacuum–microwave drying , 2011 .

[110]  R. Shahhoseini,et al.  Qualitative and Quantitative Changes in the Essential Oil of Lemon Verbena (Lippia citriodora) as Affected by Drying Condition , 2013 .

[111]  M. Leja,et al.  Antioxidant activity of fresh and dry herbs of some Lamiaceae species , 2005 .

[112]  T. Durance,et al.  Texture of Vacuum Microwave Dehydrated Apple Chips as Affected by Calcium Pretreatment, Vacuum Level, and Apple Variety , 2001 .

[113]  A. Mulet,et al.  Optimization of the antioxidant capacity of thyme (Thymus vulgaris L.) extracts: Management of the convective drying process assisted by power ultrasound , 2013 .

[114]  D. Grierson,et al.  Effects of drying methods on the quality and quantity of the essential oil of Mentha longifolia L. subsp. Capensis , 2007 .

[115]  K. Alagusundaram,et al.  Novel Drying Techniques for the Food Industry , 2014, Food Engineering Reviews.

[116]  A. Lebert,et al.  Effect of drying temperature and blanching on the degradation of chlorophyll a and b in mint (Mentha spicata Huds.) and basil (Ocimum basilicum): Analysis by high performance liquid chromatography with photodiode array detection , 1993 .

[117]  Devanand L. Luthria,et al.  Drying affects artemisinin, dihydroartemisinic acid, artemisinic acid, and the antioxidant capacity of Artemisia annua L. leaves. , 2010, Journal of agricultural and food chemistry.

[118]  M. Díaz-Maroto,et al.  Evaluation of the effect of drying on aroma of parsley by free choice profiling , 2003 .

[119]  Meenakshi Singh,et al.  ROSEMARY (ROSMARINUS OFFICINALIS L.): IMPACT OF DRYING ON ITS FLAVOR QUALITY , 1998 .

[120]  A. Figiel,et al.  Composition of rosemary essential oil (Rosmarinus officinalis) as affected by drying method , 2010 .

[121]  Donald G. Barceloux Rosemary (Rosmarinus officinalis L.) , 2008 .

[122]  M. C S G Blanco,et al.  Drying temperature effects in peppermint essential oil content and composition , 2002 .

[123]  R. Guiné Handbook of Fruits and Fruit Processing. , 2006 .

[124]  I. Doymaz,et al.  Thin-layer drying behaviour of mint leaves , 2006 .

[125]  J. V. García-Pérez,et al.  Ultrasonic drying of foodstuff in a fluidized bed: Parametric study. , 2006, Ultrasonics.

[126]  R. Nani,et al.  Influence of drying techniques on the volatile phenolic compounds, chlorophyll and colour of oregano (Origanum vulgare L. ssp. prismaticum Gaudin). , 2004 .

[127]  T. Mccaig,et al.  Extending the use of visible/near-infrared reflectance spectrophotometers to measure colour of food and agricultural products , 2002 .