Purslane + Mountain yam
Purslane is a common name for several plants with edible leaves and may refer to: Portulacaceae, a family of succulent flowering plants, and especially: Portulaca oleracea, a species of Portulaca eaten as a vegetable and considered a weed, known as summer purslane Portulaca grandiflora, moss rose, or moss-rose purslane Claytonia perfoliata, Miner's lettuce or winter purslane Claytonia sibirica, pink purslane Halimione portulacoides, sea purslane
Dioscorea pentaphylla is a species of flowering plant in the yam family known by the common name fiveleaf yam. It is native to tropical Asia or eastern Polynesia, and it is present elsewhere as an introduced species. This species is a prickly vine that twines counterclockwise around objects and other plants. It may reach 10 meters in length. The alternately arranged leaves are compound, divided into 3 to 5 leaflets each up to 10 centimeters long. The plant produces horseshoe-shaped bulbils about a centimeter long. New plants can sprout from the bulbils. Flowers are borne in spikes. The vine grows from a tuber. Specimens may be 3 pounds in weight and may be located over a meter underground. The tubers of the vine can be cooked and eaten.
Shared flavor compounds
These compounds appear in both Purslane and Mountain yam, giving them a molecular basis for flavor affinity, the pairing principle articulated by Francois Benzi and implemented in flavor-pairing research.
Why it works
The flavor-pairing hypothesis proposes that ingredients sharing significant aromatic compounds harmonize on the palate. Purslane and Mountain yam overlap on 20 key compound(s), which is why classic culinary traditions, and our deterministic matching algorithm, place them together.
- Pairing computed by: pairing-compute
- Methodology: deterministic compound-overlap matching (no LLM)
- Compound data: Wikidata + Wikidata
- Part of: Living Gastronomic Intelligence graph
Purslane and Mountain yam were also scored by an AI model trained on measured flavor compounds. 2 independent model run(s) converged on this affinity estimate.