Peruvian specialty coffee · research cutoff 2026-07-15

Method, limitations, and research agenda

The review separates directly demonstrated evidence, institutional and laboratory claims, industry reporting, commercial representations, and analytical inference.

Method and source-evaluation framework

The search was conducted through 15 July 2026 in English and Spanish. It combined exact-name variants with Peru, Cusco, La Convención, Inkawasi/Incahuasi, genetics, DNA, fingerprinting, accession, agronomy, sensory, processing, auction, price, and producer terms. Automated discovery used OpenAlex, followed by DOI and Crossref verification, PubMed Central, publisher full texts, institutional repositories, WCR, CATIE, Peruvian government pages, auction archives, and direct inspection of traceable trade and seller pages. Exact OpenAlex full-text searches returned no responsive “Inca Gesha” paper and one false-positive “SL9 coffee Peru” result, so absence from that index was treated as a search result—not proof that no study exists OpenAlexIncaGesha2026; OpenAlexSL9Peru2026.

Every candidate remains in data/source_index.csv, including rejected records and a reason for exclusion. The inclusion hierarchy was: peer-reviewed or official primary research and inspectable lab reports; institutional catalogs and government records; technically detailed industry reporting; and commercial or auction pages used only to document what was represented, described, priced, or sold. Search snippets served only for discovery. PDF claims required page locators; HTML claims required headings, paragraphs, table rows, or other reproducible locators plus the access date PruvotWoehl2020; Feran2026; SEY2026Saenz.

Claims were decomposed in data/evidence_ledger.csv and graded for directness, strength, and limitations. A variety claim required a sample-to-reference comparison; a historical route required documentary custody or archival transfer evidence; an agronomic claim required direct observation of authenticated material; a cultivar-specific sensory claim required a design able to separate genotype from environment and processing; and a market-causality claim required a comparison that controlled score, rank, producer, lot size, year, process, and bidder conditions. Commercial sources were never used as scientific proof PruvotWoehl2020; Marie2024; Donnet2008.

For genetics, the paper distinguishes rejection, exact match, cluster membership, and nearest-reference similarity. SSR fragment patterns in tetraploid Arabica are allelic phenotypes rather than whole-genome identities, and their interpretation depends on loci, references, database composition, distance metric, thresholds, and quality controls. The published eight-SSR WCR workflow and the later ten-SSR diversity study provide methodological comparators, but neither can be assumed to be the undisclosed protocol of the private Peruvian job PruvotWoehl2020, pp. 327–333; Montagnon2022, pp. 4–10.

For agronomy and sensory evidence, direct Peruvian studies were separated from regional context and from Panamanian or Nicaraguan comparator studies. The causal model was explicitly multi-stage: genotype interacts with site and season, crop management, cherry selection, fermentation, drying and storage, roast, brew, and assessor context. Controlled work was used to show that genotype can contribute; fermentation, roast, region, and panel studies were used to show why perceived resemblance cannot identify ancestry Marie2024; Ledezma2025; CastilloAviles2024; Koyner2025.

For market history, the unit of evidence was the dated page, lot, label, score, quantity, or price. Auction observations demonstrate realized value but do not estimate the causal effect of a name. Conflicting labels were retained rather than harmonized. Prices at farm gate, FOB, DDP, auction, and retail were not treated as directly comparable. The paper therefore reports transactions and disclosure practices while relying on hedonic and ethnographic research only for the more general proposition that value is assembled from multiple material and symbolic attributes Donnet2008; Fischer2021; Traore2018.

Limitations and unresolved evidence

Last updated: 2026-07-15

This project distinguishes evidence that is absent from evidence that contradicts a claim. Its main conclusions are intentionally asymmetric: the narrative distances the reported tested tree from RD2's undisclosed Geisha comparator more strongly than it establishes exact SL09. It weighs strongly against an unqualified T2722/Panamanian Geisha identification only if that comparator was authenticated T2722 and the submitted sample and custody were sound.

Genetic classification

Reference material and historical provenance

Agronomy and sensory identity

Market and chronology

Search and reproducibility limits

Evidence needed to resolve the question

The strongest next study would publish a redacted laboratory report and manifest; sample multiple tagged trees per farm and multiple farms per local name; use blinded duplicates and authenticated T2722, historical SL09, neighboring Ethiopian Legacy, and unrelated controls; disclose markers or sequence data, distances, thresholds, and quality controls; and then place verified plant groups in replicated multi-environment agronomic trials. Factorial processing, roast, chemical, trained-panel, and consumer studies would be required separately for sensory attribution. A controlled auction, conjoint experiment, or credible archival natural experiment would be needed to estimate a name premium.

Interpretation rule

Absence from the searched record is not proof of nonexistence. Negative searches, OCR-dependent historical scans, mutable market pages, and private laboratory material remain explicitly bounded.