The long and complex history of cereal cuisine in ancient China

November 04, 2020

Changing cuisines in ancient China were driven by multiple environmental and cultural practices over thousands of years, according to a study published November 4, 2020 in the open-access journal PLOS ONE by Xinyi Liu of Washington University in St. Louis and Rachel E. B. Reid of Virginia Polytechnic Institute and State University in Virginia.

Cereal grains - including wheat, rice, barley, millet and more - are the most important food sources in the world today. But understanding how these foods originated and spread across the world requires a global effort. In this study, Liu and Reid focus on the ancient history of staple cereals across China, a country well-known for its diverse food products and early adoption of many domesticated plants.

The authors compiled published data of stable carbon and nitrogen isotope compositions measured from 2,448 human skeletal samples from 128 archaeological sites across China, covering a time span over 6,000 years. These isotopic data are indicators of what kinds of plants these humans were predominantly eating, allowing the authors to infer cuisine patterns across time and space. They found that prior to 2000 BC, Chinese staple cuisines were strongly differentiated between northern and southern cultures, while cultures younger than that were dominated by east-west differences.

The authors infer that these patterns of changing cuisines are not driven by traditional narrative of "stages" of changing subsistence modes (hunting, foraging, pastoralism, farming), but are instead driven by multiple factors that favored various hybridized subsistence modes at different times and spaces. They argue that the early north-south divide was driven by environmental differences that favored different plant resources in wetland vs. arid regions, while the later east-west division was driven by differences in cultural practice, with eastern cooking habits of boiling and steaming less suited to adopting new cereals like wheat and barley.

Liu adds: "It appears that cooking is an important force shaping the ancient world. In the context of prehistoric 'food globalisation', the reaction of the local cooking tradition to novel exotic food ingredients is a key driver of their adoption and translocation, sustaining the economic foundation of the ancient world...

The dispersal of crops into new areas was not necessarily accompanied by the spread of the intrinsic cooking technology. Sometimes novel grains could be incorporated into the local cuisines. We can always relate this to our own experience of food and cooking. Southern style homemade baked beans with bacon are folded into English breakfast tradition to be served on toast."
Press-only preview:

Contact: Xinyi Liu,

Image Captions: 1) Chinese feast 2) Site maps.

(a) Site locations with isotope (white circles) and archaeobotanical (black triangles) data (see Tables 1-3, S1 for isotope studies and S2 for archaeobotanical). (b) Proposed culinary traditions in China after 2000 cal BC as described in the discussion. Regional difference in cooking follows the hypothesis proposed by Fuller and Rowlands (2011). Map generated using ArcMap v. 10.2 and NASA Blue Marble with data set obtained from NASA Earth Observatory (public domain). See:

Image Credits: 1) Giedre Motuzaite Matuzeviciute; 2) Liu et al, 2020 (PLOS ONE, CC BY)

Citation: Liu X, Reid REB (2020) The prehistoric roots of Chinese cuisines: Mapping staple food systems of China, 6000 BC-220 AD. PLoS ONE 15(11): e0240930.

Funding: National Science Foundation, under grant 1826727, "The origins and spread of millet cultivation", PI: X. Liu; the European Research Council, under grant 249642, "Food Globalisation in Prehistory", PI, M. Jones. Sponsors did not play any role in research, decision to publish, or preparation of the manuscript.

Competing Interests: No authors have competing interests.

In your coverage please use this URL to provide access to the freely available article in PLOS ONE:


Related Wheat Articles from Brightsurf:

New wheat and barley genomes will help feed the world
An international research collaboration, including scientists from the University of Adelaide's Waite Research Institute, has unlocked new genetic variation in wheat and barley - a major boost for the global effort in breeding higher-yielding wheat and barley varieties.

Global collaboration is unlocking wheat's genetic potential
In a paper published Wednesday, Nov. 25, 2020, in Nature, Kansas State University researchers, in collaboration with the international 10+ Genome Project led by the University of Saskatchewan, have announced the complete genome sequencing of 15 wheat varieties representing breeding programs around the world -- an invaluable resource to improve global wheat production.

Unmanned aerial vehicles help wheat breeders
Usually, breeders pick the best wheat lines by hand, but unmanned aerial vehicles that record certain measures of plant health can help breeders select wheat lines more efficiently.

'Madsen' wheat as source of disease resistance
Researchers show that 'Madsen,' a commonly used wheat variety, is resistant to more pests and diseases than recently thought, making it a good source of genes for breeding better wheat.

Unraveling the mystery of wheat herbicide tolerance
Genetically speaking, the loaf of bread you stress-baked during the COVID-19 shutdown is more complex than you think.

Putting zinc on bread wheat leaves
Applying zinc to the leaves of bread wheat can increase wheat grain zinc concentrations and improve its nutritional content.

Improved heat-resistant wheat varieties are identified
An international study, including researchers at the University of Cordoba, analyzed 54 genetically improved wheat genotypes from the International Maize and Wheat Improvement Center in order to determine which respond best to high temperatures

Good news for the wheat-sensitive among us
A joint project between Edith Cowan University (ECU) in Australia and CSIRO has revealed key insights about the proteins causing two of the most common types of wheat sensitivity - non-coeliac wheat sensitivity and occupational asthma (baker's asthma).

Recurrent genomic selection for wheat grain fructans
Development of Climate-Resilient, Nutritionally Improved Wheat

Reference genes are identified that are useful for genetic improvement in wheat
University of Cordoba Professor Miguel Aguilar participated in a published article on reference genes in the study of wheat meiosis, the process in which reproductive cells are generated

Read More: Wheat News and Wheat Current Events is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to