Research Corner: Interesting Journal Articles

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lUKAV28
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Tue May 19, 2020 6:26 am

I just came across this article. I really like Aeon so I am particularly happy they decided to write about tea.

Tea and capitalism
Aeon, 19th May 2020
Andrew Liu

https://aeon.co/essays/the-china-tea-tr ... capitalism
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Victoria
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Tue May 19, 2020 12:13 pm

lUKAV28 wrote:
Tue May 19, 2020 6:26 am
I just came across this article. I really like Aeon so I am particularly happy they decided to write about tea.

https://aeon.co/essays/the-china-tea-tr ... capitalism
Thanks for sharing, Aeon is an interesting non-profit group. Look forward to reading this.
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bentz98125
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Tue May 19, 2020 12:21 pm

Just read it myself. History of tea trade as the centerpiece argument to change understanding of what is no less than modernity itself, and where and how did it get here! Highly recommend.
.m.
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Wed May 20, 2020 10:55 pm

An illuminating reading, and very well written. Thanks for posting. @lUKAV28
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Bok
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Wed May 20, 2020 11:17 pm

Yes, a rare, well written essay on the topic of tea.
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mbanu
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Sun Sep 13, 2020 6:01 pm

A very helpful series is John B. Cloughley's "Storage Deterioration in Central African Tea" from 1980. It is a set of three papers, "The Effect of Some Production Variables on Theaflavin Degradation", "Methods of Reducing the Rate of Theaflavin Degradation", and "Changes in Chemical Composition, Sensory Characteristics, and Price Evaluation". Mr. Cloughley was a researcher at the Tea Research Foundation of Central Africa in Malawi.

While these papers were originally targeting packers trying to maintain auction prices, I think that understanding what happens to tea as it sits on the shelf is also helpful for tea-drinkers to understand.
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LeoFox
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Mon Dec 14, 2020 2:01 pm

This is an interesting paper on effect of scenting during jasmine tea production:

Changes in the volatiles, chemical components, and antioxidant activities of Chinese jasmine tea during the scenting processes
International Journal of Food Properties, Volume 20, 2017 - Issue 3, Published Online: 13 Oct 2016
Meichun Chen, Yujing Zhu, Bo Liu, Zheng Chen, Jiangmin Zheng, Mindan Guan, Huai Shi, Yanna Wang & Wenwen Yang

https://www.tandfonline.com/doi/full/10 ... 16.1177542

Abstract:
Chinese jasmine tea, a type of flower-scented tea, is produced by repeatedly mixing the base tea with the aromatic flowers of Jasminum sambac. The aim of this study was to analyze the changes in the volatiles, chemical components, and antioxidant activities of Chinese jasmine tea during six rounds of the scenting processes. The results indicated that benzyl alcohol, linalool, benzyl acetate, (Z)-3-hexenyl benzoate, methyl anthranilate, indole, and α-farnesene were seven major volatile compounds of jasmine tea. Moreover, the total amount of the volatile compounds increased gradually with increasing scenting rounds. The absorption of linalool became saturated quickly, while those of the other six major volatile compounds exhibited nearly linear increases throughout all six repeated scenting rounds. Importantly, the value of the jasmine tea flavor index, an evaluating indicator of the aroma quality, gradually increased with the progression of the repeated scenting rounds. The change of each detected taste component was less than 15% during six rounds of the scenting process. The antioxidant activities of the tea samples decreased in the first two rounds and later increased in the succeeding four rounds of the scenting process. However, the antioxidant activity of the finished tea was lower than that of the base tea, being significantly correlated with the change of catechin concentration. The findings provided insight into the changes in the volatiles, chemical components, and antioxidant activity of Chinese jasmine green tea during the repetitious scenting process, which could provide beneficial insight on improving the quality grade of the tea.
Here is my takeaway:

They looked at changes in volatile compounds and antioxidant activity over the course of two types of jasmine tea processes: modern and traditional:

The jasmine tea, Yin Hao Jasmine, was produced using both the traditional scenting technique (named as tea A) and the modern scenting technique (named as tea B) in Fujian Chun Lun Tea Ltd. (Fuzhou, China) in September 2012. For the modern scenting technique, the steps of separating the jasmine flowers from the resultant tea and the heating were performed in a machine. For the traditional scenting technique, the heating step was performed in a charcoal baking cage. The scenting processes were both repeated with six rounds for the two scenting techniques

They track volatiles and antioxidant activity over the course of the process. There is a long list of volatiles in the linked paper.

Volatiles increase greatest btw rounds 1 and 3. You get diminishing returns after round 3. This seems to confirm that at least 3 scentings should be done. Sample size is low so hard to draw a hard conclusion.

Antioxidants seem to decease in general, but the amount doesn't seem to be too much.

N = 3 for each process so hard to really say anything statistically significant but paper suggests modern processing is superior in terms of maximizing scent and preserving antioxidant activity.
Attachments
This is for antioxidant activity.
This is for antioxidant activity.
SmartSelect_20201214-145103_Samsung Internet.jpg (179.63 KiB) Viewed 9519 times
This is for volatile compounds. Note n=3 for each process so probably not very broadly meaningful
This is for volatile compounds. Note n=3 for each process so probably not very broadly meaningful
SmartSelect_20201214-144635_Samsung Internet.jpg (150.92 KiB) Viewed 9519 times
Last edited by Victoria on Sun Feb 28, 2021 12:42 pm, edited 1 time in total.
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Maerskian
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Tue Dec 15, 2020 8:46 pm

On a recent conversation with Tiago of TeaEncounter mentioning some of my impressions & contradictions while trying to pick up notes on teas ( particularly that unicorn i keep chasing named "sweetness" ) he pointed me to this particular - and very interesting - article ( six .... hundred :shock: ) .

It's been released under a CC license, free to download:

Tea aroma formation
Food Science and Human Wellness, Volume 4, Issue 1, March 2015, Pages 9-27
Chi-Tang Ho, Xin Zheng, Shiming Li

https://www.sciencedirect.com/science/a ... 301500018X
Abstract

Besides water, tea is one of the most popular beverages around the world. The chemical ingredients and biological activities of tea have been summarized recently. The current review summarizes tea aroma compounds and their formation in green, black, and oolong tea. The flavor of tea can be divided into two categories: taste (non-volatile compounds) and aroma (volatile compounds). All of these aroma molecules are generated from carotenoids, lipids, glycosides, etc. precursors, and also from Maillard reaction. In the current review, we focus on the formation mechanism of main aromas during the tea manufacturing process.
1. Background

Tea is the second most widely consumed beverage around the world after water [1]. The popularity of tea as a global beverage rests on its pleasant flavor, mildly stimulating effects, and nutritional properties, which people find appealing and attractive. According to the manufacturing process, tea can be divided into at least three basic types: non-fermented green tea, fully fermented black tea, and semi-fermented oolong tea [2], [3]. The flavor of tea can be divided into two categories: aroma, which consists mainly of volatile compounds; and taste, which consists mainly of non-volatile compounds. The volatile aromas are important criterion in the evaluation of tea quality.

Nowadays, more than 600 volatile compounds have been reported during the tea manufacturing process, and these compounds can be divided into 11 classes [4], [5], [6]. All of these aromas are generated from four main pathways: carotenoids as precursors, lipids as precursors, glycosides as precursors, and Maillard reaction pathway. To the best of our knowledge, no previous study has provided the details of formation mechanisms for tea aromas. Therefore, in the present study, we review main aromas starting from the manufacturing process, with biological and chemical mechanisms.
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debunix
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Thu Dec 17, 2020 11:39 am

It includes some flavor descriptors for the various compounds in the figures. COOL!
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mbanu
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Tue Feb 23, 2021 11:25 am

I thought this was helpful for understanding "gift tea" culture, which always baffled me as someone who learned about tea first through British-style teas. It is also interesting to read how guanxi is changing under the pressures of modern advertising and anti-corruption laws.

A Changing Tea Culture, A Changing China: Variations in Conceptions of Gift Tea Among Tea Sellers
Student work, Council East Asian Studies, Yale University, Spring 5-27-2020
Tiana Wang

https://elischolar.library.yale.edu/cea ... t_work/10/
“A Changing Tea Culture, A Changing China: Variations in Conceptions of Gift Tea among Tea Sellers” makes substantial use of original interviews and observations with twenty tea sellers across Jinan, Shanghai, and Beijing to show that tea culture is changing with new generations of consumers and sellers. Drawing on existing literature on tea and gift-giving in China, Wang shows that an increase in young consumers—as well as government policies—have changed how people gift tea in China. The major contribution of this work is that it examines how the cultural and economic meaning of an object can change following an exogenous shock—i.e., the 2013 anti-corruption campaign. After the structural dismantling of public and social meanings that resulted from the crackdown on luxury gift items, tea sellers turned to consumer values to a greater extent in their conceptualization of tea as a gift object.
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LeoFox
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Sat Feb 27, 2021 10:53 pm

Changes in Tea Plant Secondary Metabolite Profiles as a Function of Leafhopper Density and Damage
Front. Plant Sci., 29 May 2020
Eric R. Scott, Li, Wei, Kfoury, Morimoto, Guo, Agyei, Robbat, Ahmed, Cash, Griffin, Stepp, Han, Orians et all.

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7272924/
The tea green leafhopper (Empoasca onukii) can be a widespread pest on tea, but some tea farmers take advantage of leafhopper-induced metabolites in order to produce high-quality “bug-bitten” teas such as Eastern Beauty oolong. To understand the effects of increasing leafhopper density on tea metabolites important for quality, we conducted a manipulative experiment exposing tea plants to feeding by a range of E. onukii densities. After E. onukii feeding, we measured volatile and non-volatile metabolites, and quantified percent damaged leaf area from scanned leaf images. E. onukii density had a highly significant effect on volatile production, while the effect of leaf damage was only marginally significant. The volatiles most responsive to leafhopper density were mainly terpenes that increased in concentration monotonically with density, while the volatiles most responsive to leaf damage were primarily fatty acid derivatives and volatile phenylpropanoids/benzenoids.
My summary:

Study method:
tea: qing xin da mao cultivar (commonly used for OB)

leaf hopper: Empoasca onukii

Matsuda leaf hopper density in a field at Shanfu tea company: 0.12-0.36 hoppers/leaf (for real world comparison purposes)

treatment in study: 0, 0.5, 1, 1.5, 2  hoppers/leaf (these are the target treatments for the experiment. They estimate actual ratio at sampling.)

volatile sampling of undried leaf:
  • 2 hours from representative leaf in each pot by direct contact sorptive extraction. Volatiles analyzed by gas chromatography - mass spectrometry
leaves were dried by microwave and analyzed for
  • leaf damage through pixel classification by machine learning
  • non-volatile metabolites in extraction (80:15:5 acetonitrile:water: 1 M HCl extraction reagent) by LC-MS
  • total phenolic content by Folin Ciocalteau assay
take aways:
Strongest correlations between hopper/leaf and the following volatiles:
cis-3-hexenyl butyrate: wine,
green(E,E)-α-farnesene: woody, sweet, green , floral

sulcatone: citrus, green, musty, cheesy

(Z)-3-hexenyl hexenoate: green, fruity, fatty, tropical

unknown 3: unknown

(E)-β-ocimene: citrus green terepene

trans-dehydroxylinalool oxide:herbal, green, terpene

cis-linalool oxide (pyranoid):citrus, green

cis linalool oxide (furanoid): earth, floral, sweet, woody
I have attached the figure of the plots so you can decide if these relations are meaningful. Note several of these are also found in honey. Also note that some volatiles appear to plateau at about 0.3 hopper/ leaf. Some others need at least 0.6 hopper/leaf.

no significant correlation between leaf damage and volatiles

no significant correlation between hopper/leaf and non-volatiles

negative correlation between leaf damage and non-volatiles
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Last edited by LeoFox on Sun Feb 28, 2021 4:21 pm, edited 19 times in total.
Ethan Kurland
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Sun Feb 28, 2021 10:17 am

Did you learn which specific flavors were induced by bites?

Did you learn that there is an ideal amount of biting? It seems that there cannot be too much since the leaves recover, is that so?

Cheers
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LeoFox
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Sun Feb 28, 2021 12:01 pm

Ethan Kurland wrote:
Sun Feb 28, 2021 10:17 am
Did you learn which specific flavors were induced by bites?

Did you learn that there is an ideal amount of biting? It seems that there cannot be too much since the leaves recover, is that so?

Cheers
I updated my post with a brief overview. I dont have time to go deeper, but for those interested, it is probably worth reading as the methodology seems rigorous and there are many references.
Ethan Kurland
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Sun Feb 28, 2021 3:42 pm

LeoFox wrote:
Sun Feb 28, 2021 12:01 pm
I updated my post with a brief overview. I dont have time to go deeper, but for those interested, it is probably worth reading as the methodology seems rigorous and there are many references.
That's really impressive. Amazing really. I'm a guy that mostly wants to know does ist taste good? Or, once in a while get interested in generalizations, such as does biting make the tea better? But is is impressive. Cheers
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Tillerman
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Mon Mar 01, 2021 1:53 pm

LeoFox wrote:
Sat Feb 27, 2021 10:53 pm
Changes in Tea Plant Secondary Metabolite Profiles as a Function of Leafhopper Density and Damage
Front. Plant Sci., 29 May 2020
Eric R. Scott, Li, Wei, Kfoury, Morimoto, Guo, Agyei, Robbat, Ahmed, Cash, Griffin, Stepp, Han, Orians et all.

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7272924/
@LeoFox, this is very rigorous research. It is part of Eric's Ph.D. dissertation work. For tea leaf chemistry he's at the top of the heap.
Last edited by Victoria on Mon Mar 01, 2021 3:14 pm, edited 1 time in total.
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