2018 WORLD PERFUMERY CONGRESS Piper Nigrum

Total Page：16

File Type：pdf, Size：1020Kb

NEWSLETTER # 102 - June 2018 2018 WORLD PERFUMERY CONGRESS Piper nigrum Come to stand N°1114 at this year’s as well as our growth in this sector BLACK PEPPER SELECTION OIL - WPC to discover - or rediscover - the through our direct involvement in P83631009000 world of Biolandes. the countries where these plants are The predistillation selection of the grown and gathered. peppercorns allows us to obtain an oil with warmer (clove-like) notes THE BIOLANDES GROUP IN 2018 than conventional pepper oils while COMPLETE COMOROS YLANG OIL - delivering the characteristic freshness F3255 of black pepper. A striking presence 300 plants As a major player on the Comorian in floral, fougère and citrus accords, ylang market, we are able to Blossoms, woods, roots, barks, herbs, it impacts the composition with its offer a complete oil with all of branches, gums, fruits, seeds, tars strong persistence. the olfactory facets of the fresh blossom, combining its tart, fruity, RECTIFIED PINE TAR - F1971 12 production sites salicylate notes with the smoky Developed by our R&D laboratory, quality characteristic of this origin. France (4), Bulgaria, Turkey, this rectified tar completes the To improve the stability of the supply perfumers’ palette of leather notes, Madagascar (2), Spain, channel, we encourage purchasers in particular offering an alternative to Morocco (2), the Comoros to use the complete grade rather birch tar derivatives. The raw material than single fractions. is sourced from the Aquitaine pine 4 farms forest of southwestern France, Bulgaria, Morocco, Madagascar (2) NEW CALEDONIAN SANDALWOOD Europe’s largest planted forest OIL - F2581 (1 million hectares, 2.47 million acres). Our oil derived from New Caledonian Highly effective with its powerful odor At WPC 2018, we invite you to (re) Santalum austrocaledonicum and remarkable persistence, this discover Biolandes through four offers woody olfactory notes that product enhances oriental, woody extracts: complete Comorian evoke copaiba wood and cedar, and fougère accords. ylang-ylang oil, New Caledonian with the milky and creamy notes sandalwood oil, Madagascan black characteristic of Indian sandalwood. Come discover these products, pepper oil and rectified maritime Very persistent, with a powerful along with our entire range, at WPC pine tar. presence in base notes, this oil’s in Nice - stand N°1114! These products illustrate the knowhow olfactory signature imparts genuine that we have acquired through elegance in all types of accords. This nearly 40 years of experience in the product is sourced from a controlled, extraction of natural raw materials, perennial supply chain. www.biolandes.com.

Copy Link

Recommended publications

Pine Tar & Wood Protection Asphalt & Roof Care
PINE TAR & WOOD PROTECTION ASPHALT & ROOF CARE PINE TAR NAture’s own wood PROTECTION Pine tar has been used in Scandinavia for hundreds of years to protect and preserve wooden buildings, boats, jetties and eve- ryday items. As well as protecting wooden structures against rot, natural tar is also mildly antiseptic. This characteristic means that pine tar is used in a number of different pharma- ceutical and veterinary products for treating skin complaints. It is therefore a common ingredient in skin ointments, soap and shampoo, etc. For a long time pine tar was one of Sweden’s most important export items. A protective oil – direct from the forest Pine tar is a viscous blackish-brown liquid consisting of vola- tile terpene oils, neutral oils, resin acids and fatty acids. It’s the combination of these substances that allows mediaeval wood- en buildings that have been regularly treated with pine tar to still stand today. The proportion of these constituents varies in different tar qualities, depending on the type of wood, its age and the part of the tree used. Historically, resin-rich pine stumps have always been considered to give the best pine tar, as resin contains substances that protect the living tree from rot, insect infestation and so on. Since it has become harder to get hold of stumps, tree trunks and branches are now used to a greater extent. Aromatic and easily soluble Pine tar is transparent in thin layers and has a natural aromatic scent. It’s pretty much fully soluble in alcohol and turpentine, as well as almost completely compatible with fatty oils.
[Show full text]
Tariff Schedules of the United States Alphabetical Index
TARIFF SCHEDULES OF THE UNITED STATES ALPHABETICAL INDEX 447 TARIFF SCHEDULES OF THE UNITED STATES 449 References to References to Tariff Schedules Tariff Schedules A ABACA 30U.02-0U ACID(S) —Continued ABRASIVES AND ABRASIVE ARTICEES Sch 5 Ft IG fatty, of animal or vegetable origin—Con. abrasive wheels mounted on frameworks, salts of— hand or pedal operated 6i<9.39 quaternary ammonium 1+65.15-20 nspf 519.81-86 sodium and potassium 1+65.25-30 ACCESSORIES (see PARTS, specific article of other 1+90.30-50 which accessory, or name of accessory) gluconic, and its compounds 1+37-51-52 ACCORDIONS 725.1U-16 glycerophosphoric, and its compounds 1+37.51+ ACCOUNTING MACHINES incorporating calculating inorganic 1+16.05-1+0 mechanism 676.1S-25 organic, including halogenated, hydroxy, ACENAPHTHENE li01.02 sulfonated and other substituted and ACETALDEHIDE U27.U0 unsubstituted acids 1+25-70-98 ACETALS ii29.00 monohydric alcohol esters of 1+28+50-72 ACETANILIDE— polyhydric alcohol esters of 1+28.30-1+6 suitable for medicinal use U07.02 salts of I+26.IO-I+27.28 other k03.60 salicylic— ACETATE(S) — suitable for medicinal use 1+07.12 amyl lt28.SO other 1+03-60 benzyl 1+08.05 tannic, containing of tannic acid— butyl 1+28.52 under 50 percent 1+25.98 calcium 1+26.10 50 percent or more 1+37-68-69 cellulose 1+1+5.20 ACONITE 1+35-05-10 copper 1+26.28 ACRIDINE 1+01.01+ ethyl 1+28.58 ACRTLATES AND METHACRTLATES 1+28.62-66 lead 1+26.36 ACRYIIC RESINS 1+1+5.05 nickel 1+26.58 ACRTLONITRILE— 1+25.00 sodium 1+26.86 resins l+i+5.10 vinyl 1+28.68 ACTIVATED CLAY 521.87 Other
[Show full text]
Sesquiterpene Variation in West Australian Sandalwood (Santalum Spicatum)
Article Sesquiterpene Variation in West Australian Sandalwood (Santalum spicatum) Jessie Moniodis 1,2,3,*, Christopher G. Jones 1, Michael Renton 1,4, Julie A. Plummer 1, E. Liz Barbour 1, Emilio L. Ghisalberti 2 and Joerg Bohlmann 3 1 School of Biological Sciences (M084), University of Western Australia, 35 Stirling Hwy, Crawley, WA 6009, Australia; [email protected] (C.G.J.); [email protected] (M.R.); [email protected] (J.A.P.); [email protected] (E.L.B.) 2 School of Chemistry and Biochemistry (M310), University of Western Australia, 35 Stirling Hwy, Crawley, WA 6009, Australia; [email protected] 3 Michael Smith Laboratories, University of British Columbia, 2185 East Mall, Vancouver, BC V6T1Z4, Canada; [email protected] 4 School of Agriculture and Environment, University of Western Australia, 35 Stirling Hwy, Crawley, WA 6009, Australia * Correspondence: [email protected]; Tel.: +61-(08)-6488-4478 Academic Editors: Robert M. Coates and Derek J. McPhee Received: 13 April 2017; Accepted: 19 May 2017; Published: 6 June 2017 Abstract: West Australian sandalwood (Santalum spicatum) has long been exploited for its fragrant, sesquiterpene-rich heartwood; however sandalwood fragrance qualities vary substantially, which is of interest to the sandalwood industry. We investigated metabolite profiles of trees from the arid northern and southeastern and semi-arid southwestern regions of West Australia for patterns in composition and co-occurrence of sesquiterpenes. Total sesquiterpene content was similar across the entire sample collection; however sesquiterpene composition was highly variable. Northern populations contained the highest levels of desirable fragrance compounds, α- and β-santalol, as did individuals from the southwest.
[Show full text]
Identification of Market Adulterants in East Indian Sandalwood Using DNA Barcoding Arun Suma, E
Identification of market adulterants in East Indian sandalwood using DNA barcoding Arun Suma, E. M. Muralidharan, P. Sujanapal, M. Balasundaran To cite this version: Arun Suma, E. M. Muralidharan, P. Sujanapal, M. Balasundaran. Identification of market adulter- ants in East Indian sandalwood using DNA barcoding. Annals of Forest Science, Springer Nature (since 2011)/EDP Science (until 2010), 2014, 71 (6), pp.517-522. 10.1007/s13595-013-0354-0. hal- 01101762 HAL Id: hal-01101762 https://hal.archives-ouvertes.fr/hal-01101762 Submitted on 9 Jan 2015 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Annals of Forest Science (2014) 71:517–522 DOI 10.1007/s13595-013-0354-0 ORIGINAL PAPER Identification of market adulterants in East Indian sandalwood using DNA barcoding Suma Arun Dev & E. M. Muralidharan & P. Sujanapal & M. Balasundaran Received: 23 April 2013 /Accepted: 2 December 2013 /Published online: 17 December 2013 # INRA and Springer-Verlag France 2013 Abstract and E. monogynum, the former was more similar to S. album & Context East Indian sandalwood (Santalum album L.) in and grouped together in the dendrogram. commercial markets is highly prone to adulteration.
[Show full text]
Women's Shipbuilding Day Brings out Talent and Enthusiasm, As Always
Maine’s First Ship Maine’s First Ship: Reconstructing the Fall 2019 Special points of interest: • Virginia’s sails under Women’s shipbuilding day brings out construction • “Beach Pea” peapod talent and enthusiasm, as always raffle supports launch • Caulking makes Virginia watertight • Spars and rigging • Traditional shallops dur- ing the Popham era • MFS volunteers sail on Portsmouth’s Gundalow • School groups visit MFS • Summer at Freight Shed series continues with lectures and hands-on events A sunny Sunday morning, following the wright Rob Stevens led plank, it was clamped into extra hour of sleep due the many hands in mark- place. More are ready for to clocks being changed ing, cutting, planning, installation this week. Newsletter produced (plus widespread power shaping, and fitting deck courtesy of the outages for some in the planks on Virginia. Publicity area), brought out nearly Shipbuilders Committee: 20 participants for MFS’s spent the day cutting Roger Barry, Lori Benson, annual Women’s Ship- and shaping the white Allison Hepler building Day. Helped out pine decking, which has by shipbuilding volunteers been drying under cov- Paul Cunningham, Orman er for a number of Hines, Gail Smith, and years. After signing the underside of the first Annual Appeal Elise Straus-Bowers, ship- Please contribute to the MFS Annual Appeal as you are able. We appreci- ate all donations and your support will help keep Vir- ginia on schedule for a 2020 launch. Thank you. Page 2 Maine’s First Ship: Reconstructing the pinnace Virginia President’s Notes It has been nine years Maine’s First Ship.
[Show full text]
Botanicals and Contact Allergy
Botanicals Botanicals and Contact plant extracts Allergy essential oils increasingly popular additives cosmetics Christen M. Mowad MD cosmeceuticals Geisinger Medical Center personal care products aromatherapy Danville, PA 17821 massage therapy [email protected] medicinal/healing properties fragrances Botanicals Botanicals - composition push to naturals highly variable consumers dependent on plant part “If natural has to be OK” leaf fewer side effects root industry has added botanicals everywhere fruit cosmetics stem shampoos flower soaps bath gels Botanicals - composition Botanicals and Adverse Events highly variable patients increasingly using them concentration, antigeniticy can differ felt to be Natural and therefore harmless timing of harvest patients may neglect to mention usage Where the plant was grown need to ask processing of plant 1 Botanicals and Adverse Events Botanicals and Phototoxicity Irritant contact dermatitis Balsam of Peru Allergic contact dermatitis Carotene Photocontact dermatitis Cinnamic aldehyde Contact urticaria Essential oils Pigmentation abnormalities Furocoumarins Acneiform eruptions Oak moss Seminars in Derm 15(2):78-82,1996. Botanicals and Contact Urticaria Botanicals and Pigmentation Balsam of Peru Red discoloration by terpenes Benzoic acid Lemon, lime, orange, juniper Camphor Postinflammatory depigmentation Cinnamic alcohol Capsicum Postinflammatory hyperpigmentation Caraway oil Benzyl alcohol Cinnamic acid, alcohol, aldehyde Benzyl salicylate Coumarin Cananga oil Henna Cinnamic alcohol Ethyl vanilla Geraniol Eugenol Seminars in Derm 15(2):78-82,1996. Botanicals and Acneiform Eruptions Botanical Allergy Location Cocoa butter Frequency Coconut oil Location Simpson Thomson Corn oil Axilla 14.3% 10% Linseed oil Extremities 50% 21% Face/Neck 21.4% 41% Olive oil Trunk 21.4% 10% Peanut oil Genitalia 14.3% Pine tar Generalized 7% Sesame oil Exposed 14% Hand 14% Seminars in Derm 15(2):78-82,1996.
[Show full text]
27 CFR Ch. I (4–1–03 Edition) § 21.37
§ 21.37 27 CFR Ch. I (4–1–03 Edition) One gallon of pine tar, U.S.P. 450. Cleaning solutions (including household detergents). (b) Authorized uses. (1) As a solvent: 470. Theater sprays, incense, and room de- 111. Hair and scalp preparations. odorants. 141. Shampoos. 481. Photoengraving and rotogravure dyes 142. Soap and bath preparations. and solutions. 410. Disinfectants, insecticides, fungicides, 482. Other dye solutions. and other biocides. 485. Miscellaneous solutions (including du- plicating fluids). (2) Miscellaneous uses: (2) As a raw material: 812. Product development and pilot plant uses (own use only). 530. Ethylamines. 540. Dyes and intermediates. § 21.37 Formula No. 3–C. 575. Drugs and medicinal chemicals. 576. Organo-silicone products. (a) Formula. To every 100 gallons of 579. Other chemicals. alcohol add: 590. Synthetic resins. Five gallons of isopropyl alcohol. (3) As a fuel: (b) Authorized uses. (1) As a solvent: 611. Automobile and supplementary fuels. 612. Airplane and supplementary fuels. 011. Cellulose coatings. 613. Rocket and jet fuels. 012. Synthetic resin coatings. 620. Proprietary heating fuels. 016. Other coatings. 630. Other fuel uses. 021. Cellulose plastics. 022. Non-cellulose plastics, including resins. (4) As a fluid: 031. Photographic film and emulsions. 710. Scientific instruments. 032. Transparent sheeting. 720. Brake fluids. 033. Explosives. 730. Cutting oils. 034. Cellulose intermediates and industrial 740. Refrigerating uses. collodions. 750. Other fluid uses. 035. Soldering flux. 036. Adhesives and binders. (5) Miscellaneous uses: 043. Solvents, special (restricted sale). 051. Polishes. 810. General laboratory and experimental 052. Inks (including meat branding inks). use (own use only). 053. Stains (wood, etc.).
[Show full text]
Pine Tar; History and Uses
Pine Tar; History And Uses Theodore P. Kaye Few visitors to any ship which as been rigged in a traditional manner have left the vessel without experiencing the aroma of pine tar. The aroma produces reactions that are as strong as the scent; few people are ambivalent about its distinctive smell. As professionals engaged in the restoration and maintenance of old ships, we should know not only about this product, but also some of its history. Wood tar has been used by mariners as a preservative for wood and rigging for at least the past six centuries. In the northern parts of Scandinavia, small land owners produced wood tar as a cash crop. This tar was traded for staples and made its way to larger towns and cities for further distribution. In Sweden, it was called "Peasant Tar" or was named for the district from which it came, for example, Lukea Tar or Umea Tar. At first barrels were exported directly from the regions in which they were produced with the region's name burned into the barrel. These regional tars varied in quality and in the type of barrel used to transport it to market. Wood tars from Finland and Russia were seen as inferior to even the lowest grade of Swedish tar which was Haparanda tar. In 1648, the newly formed NorrlSndska TjSrkompaniet (The Wood Tar Company of North Sweden) was granted sole export privileges for the country by the King of Sweden. As Stockholm grew in importance, pine tar trading concentrated at this port and all the barrels were marked "Stockholm Tar".
[Show full text]
Prominence of Sandalwood (White and Red) Handicraft in the Interiors with Respect to Aromatherapy
Poralla Vaishnavi, Srivastava Srishti; International Journal of Advance Research, Ideas and Innovations in Technology ISSN: 2454-132X Impact factor: 6.078 (Volume 6, Issue 5) Available online at: https://www.ijariit.com Prominence of Sandalwood (white and red) handicraft in the interiors with respect to aromatherapy Vaishnavi Poralla Srishti Srivastava [email protected] [email protected] Jawaharlal Nehru Architecture and Fine Arts University, Jawaharlal Nehru Architecture and Fine Arts University, Hyderabad, Telangana Hyderabad, Telangana ABSTRACT India being the hub for divine wooden handicrafts due to the rare plant species grown here like Santalum album (Sandalwood) and Pterocarpus santalinus (Red sanders) which come under tropical trees are the most valuable and sacred trees associated with the culture, tradition and medicine; Sandalwood’s treasured aroma is extracted from tree’s heartwood and also it is one of the finest natural materials for carving. Since ancient times the traditional way to extract the sandalwood paste is with the help of sacred rubbing stone and sandalwood smoke is by burning the incense sticks in sacred metal or mud burners for medicine and traditional rituals. Taking the concept from the traditional process of extracting; some of interior elements shall be created to spread the aroma of Santalum album into the interiors from the passages of traditional Jharokhas(stone oriel window) and Mashrabiya(wooden oriel window) on the other side creating interior elements like 3d layered wall murals, side brackets, wall brackets, carved pelmets, etc. with Pterocarpus santalinus. As it is the most costly wood, 3d layered wall murals are designed with ombre effect instead of solid wall murals by using less material for a larger space which makes it cost effective and gives an insight for sustainability and these most exquisite sandalwood carvings are made by skilled craftsman cast in situ to prevent damage due to transport.
[Show full text]
Sandalwood Research: a Global Perspective
Subasinghe /Journal of Tropical Forestry and Environment Vol. 3, No. 01 (2013) 1-8 Feature Article Sandalwood Research: A Global Perspective S.M.C.U.P. Subasinghe Department of Forestry and Environmental Science, University of Sri Jayewardenepura, Nugegoda, Sri Lanka 1. Introduction Sandalwood is a commercially and culturally important plant species belonging to the family Santalaceae and the genus Santalum. Sandalwood oil extracted from the heartwood has been used for perfumery, medicinal, religious and cultural purposes over centuries of years. In addition to oil, the wood and its powder are used for religious, cultural and medicinal purposes especially in the Asian and Arab regions. There are around 18 sandalwood species belonging to the genus Santalum which are; S. freycinetianum , S. haleakalae , S. ellipticum , S. peniculatum , S. pyrularium , S. involutum , S. boninese, S. insulare, S. austrocaledonicum, S. yasi, S. macgregorii, S. accuminatum, S. murrayanum, S. obtusifolium, S. lanceolatum, S. fernandezianum, S. salicifolium and S. spicatum. All the sandalwood species are identified as obligate wood hemi-parasites which means they absorb certain nutrients such as phosphates and nitrates from the host trees via root connections called haustoria. The global distribution of the sandal family is between 30 degrees N and 40 degrees S from Indonesia in West to Juan Fernandez Island in the north to New Zealand in the South. These species are mainly found in India, Indonesia, Australia, Timor, Hawaii etc. Out of the 18 species mentioned above, about 6 species can be found in Hawaii Islands which shows the highest sandalwood diversity. The main reason for the economic and cultural value of sandalwood is the oil contained in the sandalwood timber, mainly in the heartwood.
[Show full text]
State of California Department of Fish and Game Bureau of Marine Fisheries Fish Bulletin No
STATE OF CALIFORNIA DEPARTMENT OF FISH AND GAME BUREAU OF MARINE FISHERIES FISH BULLETIN NO. 81 Purse Seines and Other Roundhaul Nets in California By W. L. SCOFIELD 1951 1 2 3 4 FOREWORD The construction and operation of roundhaul nets in this State have been observed and described by various staff members of the Bureau of Marine Fisheries during the past 30 years but nearly all of our published material is now out of print. This bulletin attempts to summarize the history and development of these nets in California and to de- scribe the numerous improvements which have occurred since any of us last published on the subject. Most of the following pages were prepared for publication from 1949 to 1951. We are indebted to innumerable fishermen for assistance. These men, be they Dalmatian, Sicilian, mainland Itali- an, Portuguese, Scandinavian, Japanese, Scotchmen or of third generation American stock, were willing to answer patiently questions concerning their trade. They are specialists and proud of their calling. We thank them. W. L. SCOFIELD June, 1951 5 FIGURE 1. Outline map of California, showing location of fishing ports 6 1. ORIGIN OF ROUNDHAULS It is probable that fishing was practiced before the development of primitive agriculture. At any rate, there were fish- ing nets before the first recorded history so that their origin is lost. The prehistoric lake dwellers of Central Europe used nets, and Chinese writings of 1122 B. C. refer to fishing nets. Early Egyptian hieroglyphics (3500 B. C.) pic- ture a netmaker's needle which closely resembles the present day tool and which has not been improved upon in the last five or six thousand years.
[Show full text]
Bulk Drug Substances Under Evaluation for Section 503A
Updated July 1, 2020 Bulk Drug Substances Nominated for Use in Compounding Under Section 503A of the Federal Food, Drug, and Cosmetic Act Includes three categories of bulk drug substances: • Category 1: Bulk Drug Substances Under Evaluation • Category 2: Bulk Drug Substances that Raise Significant Safety Concerns • Category 3: Bulk Drug Substances Nominated Without Adequate Support Updates to Section 503A Categories • Removal from category 3 o Artesunate – This bulk drug substance is a component of an FDA-approved drug product (NDA 213036) and compounded drug products containing this substance may be eligible for the exemptions under section 503A of the FD&C Act pursuant to section 503A(b)(1)(A)(i)(II). This change will be effective immediately and will not have a waiting period. For more information, please see the Interim Policy on Compounding Using Bulk Drug Substances Under Section 503A and the final rule on bulk drug substances that can be used for compounding under section 503A, which became effective on March 21, 2019. 1 Updated July 1, 2020 503A Category 1 – Bulk Drug Substances Under Evaluation • 7 Keto Dehydroepiandrosterone • Glycyrrhizin • Acetyl L Carnitine/Acetyl-L- carnitine • Kojic Acid Hydrochloride • L-Citrulline • Alanyl-L-Glutamine • Melatonin • Aloe Vera/ Aloe Vera 200:1 Freeze Dried • Methylcobalamin • Alpha Lipoic Acid • Methylsulfonylmethane (MSM) • Artemisia/Artemisinin • Nettle leaf (Urtica dioica subsp. dioica leaf) • Astragalus Extract 10:1 • Nicotinamide Adenine Dinucleotide (NAD) • Boswellia • Nicotinamide
[Show full text]