Friday, July 12, 2024

Nose Diving


The year 2020 was momentous. There was a global pandemic that killed millions of people and brought the world to a standstill for about a year. So most of us completely missed the release of Harold McGee's book, which is absolutely, with no hesitation, and nothing to even compare it to, the greatest and most important book ever written on the topic of smell. 

This person, Harold McGee, is already very well known for his 1984 book On Food and Cooking, which made him a legend of the culinary world. On Food is considered a Bible, if not the Bible, of cooking. He was the first person to look at food and cooking as a scientist. But he's not a scientist. He's not a chef either. He's just a really, really good writer.

When I heard that he was writing another book, this time about smells, I had to make sure it was the same person - this can't be true, not him. Personal note - I also wrote a book about smells, in 2015. I tried really hard to make sense out of the way we talk about the things we smell. I failed. But if there was ever a person that could do what I wanted to do, it was him. I read On Food back around 2010 when two of my closest friends were both going to cooking school. In fact, I had just finished reading it a second time circa 2020, thinking maybe I had learned enough about chemistry in the intervening years to help me digest the more technical parts of this seminal work. 

After I learned of his forthcoming book, but before it was released, I had hopes, but they weren't too high. Smell is too hard. There's just too much there to make sense of it, and for a lot of reasons, we're almost hardwired to NOT make sense of it. I thought it would be more like a primer, a survey, and introduction, a teaser. He certainly can't do to smell what he did to food and cooking. Nobody can. 

Then I read the book. It took me two years; I read every single word, including the notes, and some parts I read twice. But it didn't take long for me to realize what he had done. He wrote the most important book on smell ever written. I know it sounds like hyperbole, but it's not. The last time I checked, which was about 2015ish, there were about 30 books in the Library of Congress on the topic of smell. There were 300 books on perfume bottles, and 30 books on smell. People just don't write about it.

To say that McGee wrote the most important smell book ever is not an exaggeration; but the other side of the truth is that there aren't many books to compare it to. And of all the books that are written about smells, none of them tackle the language of smell (except my attempt, Hidden Scents). Ann-Sophie Barwich does a pretty good job with her 2020 book on the philosophy of smell, but even she avoids some of the messiest parts of olfactory perception, that being the language we use to talk about smells. (Here's my review)

I will cut short my praise and leave one final note, mostly out of personal interest - a fragrance friendly organization called The Perfumed Plume nominated this book Nose Dive alongside a coffeetable compendium by Gestalten called The Essence: Discovering the World of Scent, Perfume and Fragrance for the 2020 Fragrance Book of the Year. I wrote a couple chapters for The Essence. Needless to say, Nose Dive won. Actually, in the end, the pandemic won, because mostly nobody anywhere was paying attention to any of this at the time.



(^cool illustrations explaining how smells work via biology)

Nose Dive: A Field Guide to the World's Smells
Harold McGee, Penguin, 2020

--see below a note on punctuation "*"
--"osmcosm" (the universe of smells) pxi
--"original volatiles" are birds because volatile means "to fly" pxii
--"The smell of a person's body ... is the body with the flesh removed" -Sartre pxx; meaning the smell is the vaporous molecules, not the substance of the flesh
--"minerality", mineral, mine - smell of moist stones, used in wine-tasting but not the smell of actual minerals which come from inside the earth where it smells like sulfur p23-24
--First, on Earth, life ran on iron and sulfur, then oxygen. Today, some of us, our cells, still run on iron and sulfur, and so oxygen is toxic p25
--"sulfidic" p37
--"catty" cat ketone p80-81
--skin aldehydes Japanese kareishu, nonenal p112
--Essay: Olfactory Comfort in Close Relationships: You aren't the only one who does it, by Donald McBurney, 2014 p125
--The confusion is the very nature of plants and in the way we perceive smells. Plants deposit countless different molecules in their wood and leaves and flowers and fruits because they can. The smell of any particular item is a composite of many different volatiles, of which perhaps a dozen or two predominate. So several different molecules can remind us of the same item. And then on our end, we encounter many of the same molecules in different plants: so one molecule can remind us of several different items. In fact, that's part of the interest of paying close attention to flavor. When we do, we notice echoes and rhymes in many different things. p142
--Plant Metabolic Highways, see charts on page 150 and 152
--on terpenes, again, because we are usually exposed to many of them all at once and from the same source, we *encode* them ambiguously, and so when we try to *decode* them, we get mixed up. p164
--"Plants are profligate chemists" p186
--stinking goosefoot has a "fishy, ammonia-like smell due to an unusual stockpiling of trimethylamine - hence vulvaria, "vulva-like," for the supposedly similar smell of female genitalia (see p116) p203
--The creosote bush, Spanish name hedionilla, from heder, "to stink" (hedione?) p204
--On Flowers and Smell: volatile and pigment molecules share biochemical resources, so that more color means less scent, in part because some scent volatiles are also plant hormones that shorten vase life p211
--Corn salad or mâche, small spinach-like rosette, called lamb's lettuce, a mix of John Milton's garden of Eden and valerian; unlike any other salad green p247
--cilantro - similar culantro, in the celery family, popular in Southern Asia and Mexico, despised elsewhere, described as soapy. "This difference in taste is likely due to genetic differences in sensitivity to the volatiles, cultural differences in exposure to them, and also t their unusual nature. They're neither terpinoids nor benzoids, the usual herb volatiles, so they don't immediately suggest aromatic plants, instead, these aldehydes are commonly encountered in everyday life as breakdown fragments of a the long-chain lipids in soaps and cosmetics: materials that are inedible and distasteful. They're also emitted by various insects, including stinkbugs." p258
--Harold McGee is one of the few people who can start out as a layperson, but through the process of writing, rises to the level of scientist, but while maintaining his lay-language. His writing is so effortless to read, and yet so crystal clear in what it's trying to say, that you are immediately smarter by the end of the sentence. He also has the determination, and the ability, to follow every one of the paradoxes and conundrums the plague the field of olfaction, like the way he describes the Cilantro Problem [above] Part geneticist, part cultural anthropologist, food chemist, flavor chemist, and finally entomologist. Oh, etymologist too, sure.
--This "field guide" takes you to a global grocer featuring every odiferous organism possible, neatly arranged (so neatly arranged) in rows and stands, and all available for us to smell them, albeit only by the words we call them and the names of their molecules. (p266)
--He states that while trying to do his research, "Surprisingly, I haven't found any published studies of raw corn kernels or grits or flour." p276 Note that he has found studies on about a thousand other things, so it's not like he doesn't know what he's doing. Just weird. (And I'm looking at you Big Corn, all that glyphosate, biofuel, whatever. Remove the research remove the competition.)
--methyl sulfyanylhexanol is in passionfruit and underarm sweat p301
--citron is so terpentine-y that Greeks associated it with cedar and juniper p320
--"strawberry furanone" = "pineapple ketone" p331
--Finishing the fruit chapter with Durian: Most plant volatiles are defensive warnings and weapons, but by controlling our exposure to them, we manage to enjoy the sensation they stimulate - so much so that we volunteer to protect them ourselves. p335
--he refers to geosmin as an "olfactory landmark", sort of a way of organizing odor networks. p348
--octenone, a ketone, metallic and bloodlike, generated by reactive metals from keys and coins, etc. p350-351
--When he introduces terms, he often provides disambiguating context: "To students of the fungal kingdom, mushrooms are "fruiting bodies". And he goes on to explain how mushrooms are like fruit. He is a master teacher. p352
--melons, cucumbers and mushrooms all smell like fish, because fish (and oysters etc) were the first to emit these volatiles hundreds of millions of years before melons p382
--merior is terrior but for the sea, like the tastes of oysters p392
--The volatiles of squid, cuttlefish and octopus have "next to nothing" of research p395
--Toxic smell p401 (add to IH notes)
--Vanilla and clove smell like smoke (not vice-versa, like fish and melons), they are similar to guaiacol, and lignin breaks into vanillin and eugenol in fire (and in people) p412-413
--He calls fossil fuels fossil organics, because they instigated so much of our understanding p419
--He doesn't call benzene "aromatic" but "solvent" and "sweet" p421
--"The volatiles of modern materials," a section between the end of the book, in the chapter on Smoke, Asphalt, and Industry, he describes the smells of polystyrene, rubber, Bakelite, carpets, auto tires, 3-D printers, polyethylene water bottles and food wraps. It's probably the craziest chapter, and section, in the whole book. 
-"I smell it as I type paragraph when I sniff through the keyboard of my warm laptop computer." (Bakelite-like circuit boards)
-"One polymer often used in screwdriver handles (celluloste acetate butyrate) is notorious for breaking down into vinegary and cheesy acetic and butyric acids that accumulate in the toolbox."
-"To this day I sniff pre-packages sandwiches before I buy them." p428-499
--In addition to the common tree-wood volatiles, rotos have unique sesquiterpenoids, probably to defend against soil microbes - shyobbunones, acorenone, costols, and zizaenones appear nowhere else in this book. p463
--In India, wild khus roots (like vetiver) are woven into shades and mats that are sprinkled with water to cool and scent the air. p463
--musks - "animal protein machinery" by-products, "not especially unpleasant but they do get our attention, subliminally or overtly. A touch of musk or beaver is a way of asserting the wearer's animal presence by prestigious proxy rather than poor hygiene: a refined means of visceral communication." p465
--synthetic "white musks" are used for a "hot-iron-on-fresh-laundry" quality - the opposite of the original musk's underside-of-wild-mountain-creature quality! The rare, strange, ambivalent animal materials became a stepping stone to the ubiquitous reassurance of domesticity and cleanliness. p475
--Hedione is named in a chart on p475, the molecule methyl dihydrojasmonate, c.1960, smells like fresh, floral, "transparent," "over-ripe lemons"; and was found later in black tea 1974, and jasmine osmanthus, lima sweet orange p475 (?)
--Hedione again: Edward Roudnitska's Eau Savage, "Wild Water" added to an eau de Cologne citrus-herb mix the newly discovered Hedione and its fresh, bright, "transparent" volatility, which soon became a standard ingredient in modern perfumes. (p475?)
--Monko, or listening to smells (Japanese); It can be exhilarating to listen to beautiful or strange aromatics. It's also exhaustingly inward to focus on the invisible and intangible, and rack the memory for precedents or comparables. But it's building a database, and nose and a sensory work. p483 [he's referring then to the smell lexicon as a "database"]
--He doesn't talk about foods until Chapter 18 Cooked Foods. p484
--The combinatorial code of food: Liebniz Institute for Food Systems Biology near Munich, 2014, Peter Schieberle, Thomas Hofmann, and colleagues reviewed several decades of work and reported that only 230 molecules account for the majority of important volatiles in a wide range of foods, and that any given food aroma can be reasonably simulated with about a dozen of these key molecules in specific proportions. This "combinatorial code"; I assume this is the reference: A Dunkel, M Steinhaus, et al. (2014). Nature's chemical signatures in human olfaction: A foodborne perspective for future biotechnology. Angewandte Chem Int Ed 53: 7124-7143 [key food odorants] 
--Thai scented candle dessert - tian op, beeswax, incense, benzoin, frankincense, sandalwood, citrus peels, herbs, spices, essential oils, even musk p493
--Blood - we usually describe the smell as "metallic" because it's similar to the smell left on our fingers when we handle coins, or in the air when we scrub a bare metal pan or sink. But metals themselves aren't volatile: we're actually smelling the fragments created when stray heme iron and other metals help oxygen attack the carbon chains in our cell membranes, skin oils, or dish soap. Polyunsaturated chains, kinked at several points by double bonds between adjacent carbon atoms, are the most successful metallic-smelling. In the case of blood and exposed surfaces of raw meat, the key fragment is a ten-carbon, one-kink aldehyde with an oxygen atom riding its middle:an epoxy decenal (also see octenone, nonenone ,octadienone, hexenone, heptanone, nonenol) p502-503
--Olfactory Camouflage - force-feeding birds, castrating hogs, and grain-feeding cattle are all venerable versions of a kind of olfactory camouflage, a pre-cooking on the hoof that emphasizes generically fatty smells over the specifically animal and bloody p506; and this is because livery-ness in game meats and grass-fed cattle, because animals that live on open pasture take lots of multi-kinked carbon chains from whole plants, but are otherwise lean, so their metallic fragments are prominent p505
--Cooked fish bouquet - geranium leaf and cooked potato (methional and octadienone) p507
--Distinctly fishy - when fish or shellfish are less fresh or cooked more thoroughly, the long exposure to oxygen or to heat energy breaks their kinked chains mainly into seven- and ten-carbon fragments, - and this is the mix that smells distinctly fishy p507 ["distinctly fishy" just sounds funny]
--Lovage and the "Maggi plant" - many main dishes in the European tradition begin with the preparation of a base of "aromatic" vegetables (onion, carrot, celery) [~p507-512?]
--MMP gene - German flavor chemists in 2009 and 2011 published major volatiles of meat stews. The dominant "gravy-like"note came from onions and leeks being chopped and then heated, for both chemical and heat enzymes to break them into mercaptomethyl pentanol (MMP). ... MMP activates a receptor from Neanderthals which he calls "sweat-adjacent", suggesting this highly sensitive single receptor may have been about human sweat p512-513 
--rancid oils and stale food charts! p537-538
--"sweaty salty feet" - is a close relative of the Brevibactererum that ferments brine-washed Epoisses and Limberger  and makes it orange, also related to salt water sediment and fish p550
--Pseudofermentation - [my term - true pickles vs acid pickles] true pickles are fermented, modern pickles are "manufactured by simple acidification" p552
--The Industrial Approximation of Soy Sauce - soybeans pressure cooked with strong hydrochloric acid, generates an aroma surprisingly similar to the fermented version p558; see chart: fermented vs acid hydrolyzed p559
--smells like vomit - pecorino romano is a sheep's milk cheese coagulated with the protein-and-fat-digesting-enzymes in an extract of lamb stomach, so it's rich in butyric and sweaty fatty acids [smells like vomit] (and when aged, it smells like pineapple, ie ethyl butyrate, from the butyric acid) p568
--Arcaridial is an unusual molecule, found in the rinds of aged mimolette, which develop colonies of mites that leave behind a powder that smells fatty-nutty or "surprisingly good" for spider pheromones p569
--Fruit fly taint - female drosophila carry a wax-floral aldehyde as a pheromone to attract males, and can leave a detectable off-odor in the [wine] glass within minutes p575
--Hefewizen is banana-like p578
--Japanese buckwheat shochu is a rare grain [rice] spirit without long aging p589
--Yeast travel on insects, and came before flowers p591-592
--In the conclusion he says the tables of molecules and notes "only indicate notes that you may perceive in the overall smells of things. They're not prescriptions for what you should perceive. Smell perception simply isn't prescribable, for reasons that would fill another book." p595 [ahem]

NOTE:
*I vacillate between American and British punctuation with the quotations and commas, apologies.

No comments:

Post a Comment