NTSB CAROL · Event
Event DCA24LA135
Registry · N6705Y
FAA Aircraft Registry record.
Make / Model
BOEING 757-232
Year of manufacture
2000 · 24 years old at event
Engine
P & W PW2037
Seats / Engines
178 seats · 2 engines
Last airworthiness date
20000405
ADS-B equipped
Yes — Mode-S A8DED6
Registrant of record
DELTA AIR LINES INC
Source: FAA Aircraft Registry (releasable master file).
Aircraft involved
Probable cause & findings
An inadvertent encounter with convective turbulence that resulted in a serious injury to a flight attendant.
Factual narrative
Delta Air Lines flight 1253 was cleared direct to KRVUR to join the DADES1 arrival at FL 330. While flying direct to KRVUR, the flight crew said that Federal Aviation Administration (FAA) Air Traffic Control (ATC) gave the flight permission to descend to FL 310. As the airplane was descending, it approached some clouds that were visible in the moon light, and the captain activated the seat belt sign, and made a brief announcement as a precaution. The flight crew said that they then requested that ATC allow them to deviate to the left to avoid the highest cloud peaks that they could see, however at no time did the weather radar indicate any significant moisture returns. The flight crew said they were unable to avoid entering the clouds and the flight briefly encountered “moderate” turbulence. As the flight exited those cloud tops, they then saw more clouds ahead, along with some indirect lightning nearby. The captain made an announcement to the cabin for the flight attendants (FAs) to take their jump seats, and about a minute later they entered the next set of cloud tops and experienced brief, but severe turbulence. The first officer (FO) said that the turbulence encounter lasted about 10 to 15 seconds with the altitude deviating a little, and the airplane rolling about 10 to 15 degrees. He also added that the auto throttle system, increased the thrust setting, which required that they reduce it manually. After the turbulence event, the flight crew stated that they received a call from the cabin crew notifying them that a FA was injured. The injured FA stated that after completing cabin service they stowed the beverage carts in the back galley and within one minute of stowing the carts, they encountered “very severe” and unexpected turbulence. He said that the seatbelt sign was off, and he could not sit in the jump seats closest to him because they were all occupied by other flight attendants. He added that the flight was full and there were no passenger seats available as well, and the only available jump seats were far away. He said that as he reached to grab a handle near the carts he was suddenly thrown by the turbulence. He hit his head on the ceiling and came down on his right foot, resulting in a broken fibula. After the turbulence ended the flight crew gathered more information from the cabin and made a pilot report (PIREP) to ATC indicating that there was an injured FA aboard and requested that emergency medical services personnel meet the airplane at the gate. The first officer added that from his perspective, there was no indication of possible turbulence in the vicinity, and if it wasn't for the moon light making the clouds visible, the seat belt sign would most likely have not been activated, because the radar showed no reflection of moisture in the clouds. Source: NTSB Aviation Accident Database Retrieved: 2026-02-12
NTSB Findings
Hierarchical cause / factor breakdown from the FAA bulk avdata database. Each finding tagged C (Cause) or F (Factor).
- — Environmental issues-Conditions/weather/phenomena-Convective weather-(general)-Effect on personnel
Verbatim from NTSB's published report. Source file
NTSB_2024_DCA24LA135.txt.
Findings + structured fields enriched from FAA avall.mdb.
Full investigation docket on
data.ntsb.gov ↗.
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Related research
What the literature says.
Academic papers and agency reports matching this event's aircraft type or causal vocabulary (turbulence). Sourced from NASA NTRS, NTSB Safety Studies, FAA CAMI, AOPA Air Safety Institute, Embry-Riddle Scholarly Commons, arXiv, and the Semantic Scholar academic graph.
- arXiv 2026 · arXiv preprint
Direct Numerical Simulations of Ice-Ocean Boundary Turbulence
Turbulent heat and freshwater transport at ice-ocean interfaces controls glacier and iceberg melt rates, yet the underlying physics remains poorly constrained.
- Embry-Riddle Scholarly Commons 2025 · Journal article (JAAER)
Political Turbulence and Aviation Safety: A Cross-National Analysis of Political Stability's Effects on Aviation Accidents
To what extent does political stability affect aviation safety? This research aims to link domestic political conditions and public safety through the consideration of aviation accident frequency.
- arXiv 2025 · arXiv preprint
Explainable LiDAR 3D Point Cloud Segmentation and Clustering for Detecting Airplane-Generated Wind Turbulence
Wake vortices - strong, coherent air turbulences created by aircraft - pose a significant risk to aviation safety and therefore require accurate and reliable detection methods.
- arXiv 2024 · arXiv preprint
Does small-scale turbulence matter for ice growth in mixed-phase clouds?
Representing the glaciation of mixed-phase clouds in terms of the Wegener-Bergeron-Findeisen process is a challenge for many weather and climate models, which tend to overestimate this process because…
- arXiv 2023 · arXiv preprint
Effects of electrostatic interaction on clustering and collision of bidispersed inertial particles in homogeneous and isotropic turbulence
In sandstorms and thunderclouds, turbulence-induced collisions between solid particles and ice crystals lead to inevitable triboelectrification.
- SKYbrary (Eurocontrol) 2023 · SKYbrary article
Wake Vortex Turbulence — SKYbrary Knowledge Base
SKYbrary wake vortex turbulence comprehensive article — generation mechanics, dissipation factors, separation standards (ICAO LIGHT/MEDIUM/HEAVY/SUPER + recategorisation RECAT-EU).
Browse the full corpus — academia portal ↗