Tridactyl Specimen Profile


Discovering the Tridactyls


Presenting The Scientific Research Findings to the World

In September and November 2023, the tridactyl specimens were presented in historic hearings before the Mexican Congress, and in November 2024, before the Peruvian Congress, with the participation of leading scientists: Ricardo Rangel, Dr. José Zalce, Dr. David Ruiz Vela, Dr. John McDowell, Josh McDowell, Dr. Hernández, Dr. Zúñiga, Dr. Irvin Zúñiga, supported by the investigative work of Jaime Maussan, Jois Mantilla, Jesús Alberto Tlaxcalteco, Giorgio Piacenza and Gonzalo Chavez. These presentations marked a milestone in scientific research, bringing these unprecedented findings to the global stage. This website aims to share our scientific evidence and raw medical files to promote transparency and advance research.

This video examines Maria’s authenticity as a tridactyl being based on scientific evidence.


About the Discovery


The discovery of the tridactyl specimens has been a gradual process involving scientists, institutions, and international collaborations. Below is a year-by-year summary:

  • 2015: Leandro Benedicto Rivera Sarmiento (a.k.a. "Mario Peruano") apparently discovers a cave or tunnel system in the Peruvian desert containing tridactyl specimens, complete bodies, and artifacts. Yet to be verified.
  • 2016: The Instituto Inkarri begins efforts to find scientists willing to study the findings. In collaboration with Peruvian doctors, small specimens are examined, and no fraud is detected.
  • 2017: Thierry Jamin and his team analyze the specimens, including "Maria," "Josefina," and "Alberto." X-rays, CT scans, and carbon dating are conducted, revealing ages of up to 1,700 years.
  • 2018: Advanced studies confirm unique characteristics, such as tridactyl hands with five phalanges, eggs in Josefina’s abdomen, and the presence of rare metals like osmium and cadmium chloride. On November 11, the results of multiple medical, forensic, and biological investigations are presented to the Peruvian Congress.
  • 2019: The Universidad Nacional San Luis Gonzaga (UNICA) takes custody of the specimens for research. The Ministry of Culture attempts to confiscate them but fails to prove fraud.
  • 2020: Josefina's eggs are confirmed to be organic material. Studies on the specimens' anatomy and genetics continue.
  • 2021-2022: Further research reveals more details about the metallic implants and genetics of the specimens. The "Miles Paper" is published, suggesting the tridactyls may be a non-terrestrial species.
  • 2023: Two small specimens are presented at the Mexican Congress, generating international attention. Experts support their authenticity, but the Peruvian Ministry of Culture remains skeptical.
  • 2024: A key year for research. A new specimen, Montserrat, a pregnant tridactyl, is discovered. A male specimen, a child, and a teenage tridactyl are also found. Dr. Edgar Hernández Huaripaucar publishes two peer-reviewed articles highlighting the morpho-anatomical biometric and craniometric characterization of a tridactyl specimen. Shortly afterward, he dies in an accident. In November, the Peruvian Congress organizes a public hearing where forensic experts and biologists confirm that the specimens have not been tampered with.
  • 2025: The Ministry of Culture meets with researchers to discuss the findings. Collaboration is agreed upon to advance research and improve heritage management.

Despite skepticism, many scientists have affirmed the authenticity of these specimens, citing the intricate anatomical details and the absence of tampering. The Universidad Nacional San Luis Gonzaga in Peru has taken a leading role in preserving and studying these remains, while international collaborations continue to uncover new insights into these enigmatic beings.

Jois Mantilla explains where the new bodies from 2024 are coming from.

Santiago

Santiago is estimated to be 5 years old, as evident by his preserved baby teeth an endearing and unique feature. Preserved using the same techniques as Maria, Santiago offers us another glimpse into this mysterious civilization's practices.

Meet Santiago.

[SPECIMEN DETAILS]

  • Estimated Age: 5 years old
  • Unique Features: Baby teeth, tridactyl limbs
  • Preservation: Cadmium Chloride & Diatomaceous Earth
Santiago

Santiago's toeprints.

Unique Fingerprints and Toeprints of the Tridactyl Beings

Unlike humans or any known species, the tridactyl beings' fingerprints and toeprints are composed of perfectly straight lines, a pattern not observed in nature.

Forensic experts have noted the precision and uniformity of these prints, suggesting possibly an unknown species.

This discovery challenges existing paradigms in biology and raises the possibility of their non-human origin, adding a compelling layer to the ongoing investigation.

Explore Fingerprints

THE DEFINITIVE EVIDENCE KNOWN AS MONTSERRAT:
A PREGNANT TRIDACTYL.

Montserrat

Montserrat is an approx. 15 to 25-year-old pregnant tridactyl.


Montserrat, a tridactyl specimen approximately 1.50 meters (4 feet 11 inches) tall and weighing between 10 and 12 kilograms (22 to 26 pounds).


The video showcases the initial reactions to Montserrat's pregnancy discovery.

Scientific Evidence Regarding Maria


DNA and Radiocarbon Dating confirm a 1,700-year-old origin.

Unique traits include tridactyl hands and feet.

Preservation achieved using cadmium chloride and diatomaceous earth.

Maria

Profile view of Maria.

[SPECIMEN DETAILS]

  • Estimated Age: 1,700 years
  • Height: 5 ft 5 in
  • Weight: 80 lbs
  • Unique Features: Tridactyl limbs, elongated skull
  • Preservation: Cadmium Chloride & Diatomaceous Earth

Explore Research Papers


While our current journals may not meet the highest standards, we are committed to improving the quality and reach of our work.

We believe the evidence speaks for itself and welcome collaboration from the scientific community to achieve this goal.

Maria

Maria - Our First Peer Reviewed Specimen.

About Maria

Maria is one of the most significant tridactyl specimens discovered. Her unique anatomical features, including an elongated skull and tridactyl limbs, have been extensively studied in the following research papers:

Maria's preservation and unique features provide invaluable insights into the anatomy and biology of tridactyl beings.

Dr. Edgar Hernandez

In Memory of Dr. Edgar Hernandez

We honor the legacy of Dr. Edgar Hernandez, who sadly passed away at the end of 2024. As the head author and leader of this research effort, Dr. Hernandez was instrumental in advancing our understanding of tridactyl specimens like Maria. His dedication and passion for science will always be remembered.

DICOM Transparency Initiative


At Tridactyls.org, we believe in the importance of transparency and accountability. Researchers accessing the tridactyls' raw medical files must agree to uphold these values. By registering, you will receive updates on:

  • Congressional hearings
  • Research conventions
  • Discovery of new specimens
  • Peer-reviewed publications
  • Latest scientific updates

DICOM Examples


At Tridactyls.org, we’re committed to transparency. Researchers gain access to raw data, like this groundbreaking DICOM scan of Montserrat.


The scan reveals Rafael, the baby inside Montserrat’s belly! A discovery that redefines our understanding of tridactyl beings.


DICOM scan of Montserrat's baby, Rafael, a groundbreaking find.

Available DICOM Files

After the 2024 Ministry of Culture investigation of Maria and Wawita, our team successfully filed a transparency motion, approved by the courts. These are the original medical files from that study, along with files for Montserrat, Luisa, Alberto, Victoria. We provide them as received.

File Integrity Verification

Compare the SHA-256 hash provided with your downloaded file’s hash to confirm its authenticity. Maria and Wawita files (except those marked as UNICA) are available to everyone. Maria DICOM UNICA, Wawita DICOM UNICA, Montserrat, Luisa, Alberto, Victoria files require an approved researcher account and agreement to citation conditions (or approved anonymity).

  • Montserrat Part 1:99793871D54A41973ECE03AD4EA50A359EA7278B6A6C48CC9AA4C22BD9DF7371

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "Montserrat_part1.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 Montserrat_part1.zip
    • Linux: Use the terminal: sha256sum Montserrat_part1.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
  • Montserrat Part 2:14CCE0B6E015709A225AEC1BE84568A7EF983E10E0FA950D267704599C332653

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "Montserrat_part2.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 Montserrat_part2.zip
    • Linux: Use the terminal: sha256sum Montserrat_part2.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
  • Luisa DICOM:B47C9ACCC5ED012CC91455E2344ED4EE50AA42EC2F9EB37A582FE9E6B6F70E3B

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "Luisa_DICOM.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 Luisa_DICOM.zip
    • Linux: Use the terminal: sha256sum Luisa_DICOM.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
  • Alberto DICOM:FEBB2A71F362A9E9EF72ECD9C72194AFF4FE6CF1376613E358CB43B4C0FEAB71

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "Alberto_DICOM.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 Alberto_DICOM.zip
    • Linux: Use the terminal: sha256sum Alberto_DICOM.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
  • Maria - Tomography:9A3F5953B5A5DF38B61B97E40F36A8F0F2CA8CADE72CC12ED210A31F2EDA9441

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "maria_momia_tomografia.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 maria_momia_tomografia.zip
    • Linux: Use the terminal: sha256sum maria_momia_tomografia.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
  • Maria - Mummy:3D40D00331909992241C350B7634E917C7B3341A47E24F38C0F4B104F8AB502F

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "maria_momia.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 maria_momia.zip
    • Linux: Use the terminal: sha256sum maria_momia.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
  • Maria DICOM UNICA:14EC7F08A33CCE394996A28645F4AB78ABA265B88D1582809DCA98E83208729F

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "Maria_DICOM_UNICA.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 Maria_DICOM_UNICA.zip
    • Linux: Use the terminal: sha256sum Maria_DICOM_UNICA.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
  • Wawita - Abdominal Tomography:80C9F75F1377FC21740307CDDB1B4F4734104E37C11DB8E97ADF6C6DFAF1C0DD

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "momia_wawito_tomografia_abd_sc.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 momia_wawito_tomografia_abd_sc.zip
    • Linux: Use the terminal: sha256sum momia_wawito_tomografia_abd_sc.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
  • Wawita - Pelvimetry:2C8C657A6631056285676A975D31DFDF4F1EFBC6E526A58D3AA5DB1E6D194CAE

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "pelvimetria_wawito.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 pelvimetria_wawito.zip
    • Linux: Use the terminal: sha256sum pelvimetria_wawito.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
  • Wawita - Mummy:AF5737E3E7B3F5921C424C0C06EFB3E4FB13F3304C2AAF5166ACBB830C4F5210

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "wawito_momia.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 wawito_momia.zip
    • Linux: Use the terminal: sha256sum wawito_momia.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
  • Wawita DICOM UNICA:70CCA09D10809A52266B54DF19EE86781536F4D286560D89720A150AEF721DEA

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "Wawita_DICOM_UNICA.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 Wawita_DICOM_UNICA.zip
    • Linux: Use the terminal: sha256sum Wawita_DICOM_UNICA.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
  • Victoria DICOM:27F826ACF207AC72834F446EE8DFBF21CD241A9BB997F2D628B3F5CB90E3B090

    Instructions by operating system:

    • Windows: Use PowerShell: Get-FileHash "DICOM - VICTORIA.zip" -Algorithm SHA256
    • macOS: Use the terminal: shasum -a 256 DICOM - VICTORIA.zip
    • Linux: Use the terminal: sha256sum DICOM - VICTORIA.zip
    Note: Make sure to navigate to the file’s directory using cd "path\to\directory" (Windows) or cd /path/to/directory (macOS/Linux) before running the command.
Montserrat Part 1
Montserrat Part 1
Pregnant tridactyl, 1.5 meters, with 10 metal implants.
Montserrat Part 2
Montserrat Part 2
Pregnant tridactyl, 1.5 meters, with 10 metal implants.
Luisa DICOM
Luisa DICOM
Pregnant female tridactyl, 60 cm, with a chest implant.
Alberto DICOM
Alberto DICOM
Male tridactyl, 60 cm.
Maria Tomography
Maria - Tomography
Adult tridactyl found in Nazca, Peru.
Maria Mummy
Maria - Mummy
Adult tridactyl found in Nazca, Peru.
Maria DICOM UNICA
Maria DICOM UNICA
Detailed DICOM files from the University of Ica.
Wawita Abdominal Tomography
Wawita - Abdominal Tomography
Child tridactyl found with Maria, with artificially modified fingers and toes. Interesting for study.
Wawita Pelvimetry
Wawita - Pelvimetry
Child tridactyl found with Maria, with artificially modified fingers and toes. Interesting for study.
Wawita Mummy
Wawita - Mummy
Child tridactyl found with Maria, with artificially modified fingers and toes. Interesting for study.
Wawita DICOM UNICA
Wawita DICOM UNICA
Detailed DICOM files from the University of Ica.
Victoria DICOM
Victoria DICOM
Headless tridactyl, 60 cm, studied at the University of Ica.

Note: Maria (UNICA), Wawita (UNICA), Montserrat, Luisa, Alberto, Victoria DICOM files are only available to approved researcher accounts after submitting a request and agreeing to citation conditions (or having approved anonymity).

Open Folder Icon
Access Exclusive DICOM Files Click to request access to restricted files

A volunteer effort by Tastio.

As Seen On

Maussan TelevisionRoswell Daily RecordDaily MailTelemundo

Notes about cookies

This website uses cookies. By using this website, you agree to the use of cookies. Detailed information can be found in our Privacy Policy.

Agree