Understanding the Importance of Visibility in Shark Diving

Table of Contents

• Understanding the Importance of Visibility in Shark Diving
• The Science of High-Contrast Displays for Diving
• Common Mistakes in Choosing a Diving Computer
• Myths About Diving Computers Busted
• Staying Safe with Sharks: The Dive Computer’s Role
• Predictions for the Future of Diving Technology
• How to Maximize Your Wakx Dive Experience Using Technology
• Comparing Top Diving Computers for Low Visibility

Introduction

Dive into the world of scuba diving, particularly the challenging yet exhilarating experience of shark diving in low visibility waters like those of West Palm. In this post, we’ll explore how the latest technology in diving computers, particularly those designed for high visibility in murky conditions, can enhance your underwater experience and safety.

Understanding the Importance of Visibility in Shark Diving

The Science of High-Contrast Displays for Diving

High-contrast screens in dive computers are specifically engineered to improve underwater visibility by using a colour scheme that maximises differentiation between foreground text and background. Typically, this means dark, bold text against a bright or light background, or conversely, bright text on a deep black screen. This contrast makes it far easier for divers to quickly and accurately read critical information, even when ambient light is minimal or visibility is poor.

Key technical features that contribute to a high-contrast display’s effectiveness include:

• Display size and resolution: Many high-contrast dive computers employ larger screens—ranging roughly from 1.2 to 2.6 inches diagonal—to present data in larger, clear fonts that reduce eye strain. Compact devices with smaller screens often struggle to maintain legibility underwater; the larger size helps overcome this challenge.
• Use of backlighting: Backlights boost screen brightness in dark environments such as deep water, caves, or night dives. Activation speeds and the quality of the backlight vary across models but are essential for low-light readability.
• Typography and layout: Fonts on these displays tend to be simple, bold, and sans-serif, with important dive metrics displayed prominently. Clear labelling and minimalistic interfaces reduce cognitive load underwater, allowing divers to extract key data at a glance.

The benefits of high-contrast displays for divers are significant and support safety, comfort, and efficiency:

• Easier reading under varied light conditions: Whether diving at night, in murky waters, or in shaded environments, these screens remain readable without the need for additional eyewear or lighting.
• Reduced eye strain and fatigue: Divers, especially those who wear prescription masks or have vision challenges, experience less difficulty reading their instruments, lowering the risk of misreading critical data.
• Improved situational awareness: Quickly accessing accurate dive information such as depth, nitrogen loading, and safety stop parameters helps divers adjust their behaviour promptly to avoid hazards.
• Enhanced reliability of data interpretation: With larger fonts and clear contrast, important warnings and alerts stand out, reducing chance of oversight in urgent situations.

Examples of models excelling in this area include the Shearwater Petrel 3 with its vivid AMOLED display known for exceptional clarity, and Mares computers that combine wide, high-contrast screens with intuitive interfaces. These features highlight how display technology advances directly enhance diver safety and ease-of-use during challenging dives.

The Science of High-Contrast Displays for Diving

Common Mistakes in Choosing a Diving Computer

When selecting a diving computer, many scuba divers make critical errors that can affect their safety, enjoyment, and long-term satisfaction. Understanding these pitfalls is essential to ensure you pick the right device for your specific needs, especially for challenging conditions like low visibility shark diving near West Palm Beach.

1. Not Considering Future Diving Plans

A prevalent mistake is buying a basic dive computer tailored only to current recreational diving needs without accounting for possible growth into advanced or technical diving. For example, some models do not support nitrox or mixed gases, which are increasingly common among more experienced divers. If you later decide to dive with enriched air or explore deeper or more complex profiles, your initial choice might become a limiting factor, forcing you to upgrade sooner than expected.

2. Insufficient Familiarity Before Use

Many divers underestimate the importance of becoming thoroughly acquainted with their computer before actual dives. Relying on rental units or new devices without adequate land practice can cause misinterpretation of safety limits such as no-decompression stops or failure to respond to alarms promptly. This lack of familiarity not only raises safety risks but also diminishes dive confidence and enjoyment.

3. Ignoring Device Maintenance and Safety Features

Ignoring regular maintenance—like battery replacements, firmware updates, and unit cleaning—can lead to malfunctions during dives. Additionally, dismissing alarms or not utilising key safety features embedded in modern dive computers compromises diver safety. Proactively managing these aspects ensures your computer operates reliably, especially in demanding environments.

4. Overlooking Air Integration Capabilities

While more affordable basic models lack air integration, this feature is vital for precise gas management during longer or complex dives. Air-integrated dive computers connect wirelessly to tank transmitters, providing real-time information about remaining gas supply, thereby improving dive planning and safety. Skimping on this can lead to conservative dive profiles or missed opportunities to extend safe bottom time.

5. Prioritising Style or Convenience Over Practicality

Choosing between wrist-mounted and console-style computers often comes down to personal preference, but many divers fail to consider practical implications. Console units may get tangled or snagged during dives, while bulkier wrist computers may hinder mobility or feel uncomfortable during extended use. Selecting a form factor aligned with your typical dive conditions and personal comfort enhances practicality and reduces distractions underwater.

6. Selecting Overly Complex Devices for Beginners

Beginners sometimes opt for advanced models with complicated menus or niche features they don’t yet need. Overly complex interfaces raise the risk of user error underwater and can overwhelm newcomers. It’s better to start with intuitive, user-friendly models that cover essential functions well, allowing gradual mastery before upgrading.

Recommendations for Informed Choices

• Plan Ahead: Choose computers with modular or expandable features compatible with nitrox and other dive modes you might pursue.
• Practise Regularly: Familiarise yourself with device operation and full menu navigation before actual dives to build confidence and awareness.
• Invest in Air Integration: Whenever possible, select models that support wireless air transmitters to enhance gas management and dive safety.
• Consider Comfort and Usability: Evaluate the device’s size, display visibility under low-light or low-visibility conditions, and ergonomic fit for your diving style.

By avoiding these common missteps, West Palm divers can equip themselves with the ideal dive computer to safely explore shark habitats even when visibility is compromised.

Common Mistakes in Choosing a Diving Computer

Myths About Diving Computers Busted

When selecting a diving computer, it’s crucial to separate fact from fiction to make an informed choice that enhances underwater safety and experience. Several misconceptions persist that may mislead divers regarding the capabilities and necessity of these devices.

• Entry-Level Computers Lack Essential Safety Features
  Many believe that basic dive computers are too simplistic and omit critical functions. However, modern entry-level models come equipped with vital safety tools such as no-decompression limit (NDL) tracking, depth monitoring, and ascent rate warnings. These features, once reserved for high-end units, are now standard to ensure diver safety across skill levels.
• Nitrox Diving Requires Advanced Computers
  A common myth is that only specialised or advanced computers can handle Nitrox diving. In reality, the majority of contemporary entry-level dive computers support Nitrox mixes up to 40% oxygen. They automatically adjust calculations based on the chosen gas mixture, making them suitable and safe for recreational divers practising Nitrox dives.
• Ascent Rate Monitoring Is Only Available on Advanced Units
  Some assume that ascent rate alarms—a critical feature to prevent rapid ascents and reduce decompression risk—are exclusive to sophisticated or expensive models. Actually, all modern dive computers, regardless of price tier, include ascent rate monitoring because it is fundamental to dive safety protocols.
• Data Logging and Connectivity Are Unnecessary for Beginners
  It’s sometimes thought that logging dive data or wireless transfer is superfluous for novice divers. Yet, even basic dive computers offer manual dive log functions, enabling divers to track and analyse their profiles. This is invaluable for improving dive planning and understanding personal limits over time.
• Dive Computers Completely Eliminate Decompression Sickness (DCS) Risk
  Misconstruing dive computers as infallible safety devices leads some to believe that using them fully prevents decompression sickness. Although computers rigorously calculate safe dive parameters and reduce risk, DCS can still occur due to multiple factors, including individual physiology, dive profiles, or user input errors. Hence, they are risk-mitigation tools, not guarantees.
• Early Dive Computers Encouraged Unsafe Dive Profiles
  There’s a historical myth that early computers enabled risky “sawtooth” dive patterns (repeated ascents and descents), increasing decompression stress. While early models had limitations, responsible use adhering to manufacturer guidelines and dive planning has always been essential for safe diving.
• Computers Are Infallible and Replace Diver Judgement
  Overreliance on technology without understanding underlying principles is a dangerous misconception. Dive computers require accurate input and maintenance; system errors or user mistakes can compromise safety. Sound dive planning, conservative decision-making, and understanding of decompression theory remain imperative despite technological aids.

Understanding these myths helps divers select appropriate computers that are both safe and functional for their diving style, including challenging conditions like West Palm’s low visibility blue-water shark expeditions.

Myths About Diving Computers Busted

The Dive Computer’s Vital Role in Enhancing Safety During Shark Encounters

While dive computers do not directly interact with or deter sharks, their critical function in managing diver safety parameters significantly enhances protection during shark encounters. By reliably tracking and controlling dive conditions, these devices reduce physiological stress and cognitive distractions, which are key factors that influence how divers respond in potentially tense moments around sharks.

Core Safety Features Supporting Calm and Controlled Shark Dives

• Real-Time Monitoring of Depth, Time, and Ascent Rates: Dive computers continuously calculate safe depth profiles, bottom times, and ascent speeds to prevent decompression sickness (DCS). This is crucial during shark encounters where divers might be distracted—knowing the computer will alert them to safe limits allows them to focus on the environment and shark behaviour without second-guessing dive parameters.
• Audible and Visual Alerts: Alerts notify the diver about rapid ascents, exceeded depth limits, or low gas remaining. These signals help prevent panic-induced mistakes during close shark interactions by encouraging controlled responses and maintaining safety protocols.
• Air-Integrated Gas Monitoring: Models with wireless tank pressure monitoring ensure divers are aware of remaining air supply at all times, reducing the risk of sudden air depletion emergencies that could lead to erratic behaviour. Managing air supply calmly helps avoid provoking sharks due to splashing or frantic movements.

Indirect but Crucial Benefits for Shark Encounter Safety

• Reducing Divers’ Cognitive Load: When divers don’t have to manually monitor depth and gas levels constantly, they can better read shark body language and environmental cues, facilitating safer interactions.
• Emergency Preparedness: GPS-enabled dive computers or paired systems can facilitate rescue operations if a diver becomes disoriented or incapacitated during a shark encounter.
• Promoting Safe Dive Profiles: Maintaining decompression stops and avoiding rapid ascents reduces the likelihood of panic—a common trigger in shark incidents—helping divers stay composed.

Limitations and Safety Considerations

It’s important to remember that dive computers do not repel or deter sharks directly; specialised shark deterrent devices exist for that purpose but are not foolproof. Dive computers should be viewed as essential tools that support physiological and situational safety, enabling divers to react calmly and appropriately during shark encounters. Combining vigilant dive planning, respectful shark behaviour, and reliable dive technology offers the best safety strategy.

Key Takeaways for Selecting a Dive Computer for Shark Diving

• Choose models with clear, high-contrast displays to ensure quick readability in low visibility conditions typical of many shark dive sites, like off West Palm Beach.
• Prioritise air-integrated computers for real-time tank pressure supervision, reducing the risk of gas-related emergencies.
• Opt for robust alert systems with both visual and audible alarms to effectively signal critical situations without distracting from the surrounding environment.
• Reliable battery life or user-replaceable batteries ensure uninterrupted vital data access throughout the dive, minimising risks during encounters.

By selecting a dive computer with these safety-enhancing capabilities, divers position themselves to maintain control and composure during shark interactions, optimising both physiological safety and environmental awareness.

Staying Safe with Sharks: The Dive Computer’s Role

Emerging Technologies Shaping the Future of Diving Computers

The future of diving technology is rapidly advancing with a strong emphasis on enhancing both diver safety and overall underwater experience. One of the most significant trends by 2025 is the integration of artificial intelligence (AI) into dive computers. These next-generation devices analyse dive profiles in real-time, predicting potential safety risks such as decompression stress or gas toxicity before they escalate. This proactive approach allows divers to make smarter, data-driven decisions underwater, reducing the likelihood of accidents and improving overall dive management. Furthermore, seamless syncing with smartphones facilitates detailed post-dive analysis and sharing, expanding the utility of dive computers beyond the dive itself.

Wearable technology is also evolving, with smartwatches like the Apple Watch Ultra incorporating underwater health metrics monitoring. These devices track vital signs and environmental parameters, instantly alerting divers to abnormalities or hazards. This real-time physiological feedback empowers divers to respond quickly to health changes, enhancing safety during prolonged or challenging dives.

Lightweight and Sustainable Gear Revolutionises Diver Comfort and Accessibility

The diving industry is seeing a move toward more sustainable, lightweight, and travel-friendly equipment. A prime example is the innovative Avelo Scuba System, which replaces traditional bulky air bladders with a lightweight hydrotank for neutral buoyancy. Weighing around 18 kilograms, it drastically reduces physical strain and improves stability, especially benefiting shore divers and those who prefer less cumbersome setups. This ease of use broadens accessibility and encourages longer, more comfortable dives.

Sustainability stands as an equally important pillar with recycled wetsuits, biodegradable packaging, and durable, eco-conscious materials becoming mainstream. This shift not only reduces environmental impact but also appeals to divers who value ocean conservation, deepening their connection with dive sites and marine ecosystems.

Innovations in Breathing and Communication Systems

Next-generation rebreathers like the Hollis Explorer simplify complex breathing systems, extending bottom times while minimising bubbles. This quiet diving capability enhances marine life interaction, enabling richer underwater experiences. AI-powered safety algorithms integrated with these systems can anticipate risks including shallow-water blackout or gas narcosis, allowing divers to mitigate danger in advance.

Improved underwater communication technologies are also emerging, streamlining group coordination and emergency responses. Enhanced voice or signal transmission systems foster safer and more enjoyable group diving by maintaining clear contact even in challenging conditions.

Impacts on Diver Safety and Experience

• Predictive Safety Enhancements: AI monitors and analyses dive patterns continuously, alerting divers to potential hazards earlier than traditional methods.
• Health Monitoring: Wearable sensors provide immediate feedback on physiological stresses, preventing incidents arising from unnoticed health changes.
• Comfort and Accessibility: Lightweight, hydrotank buoyancy systems and personalised gear improve comfort, making diving feasible for a broader range of enthusiasts.
• Eco-Friendly Gear: Sustainable materials and responsible manufacturing promote environmental stewardship, resonating with today’s dive community values.
• Enhanced Communication: Real-time underwater communication enhances coordination, safety, and the social aspects of diving.

These innovations collectively herald a shift from reactive to predictive safety measures, while simultaneously elevating the quality of the diver’s experience through personalised, tech-forward solutions. For those diving in low visibility environments like West Palm, these advancements will be crucial, especially as high-contrast, smart display diving computers become standard for visibility and safety.

Predictions for the Future of Diving Technology

Optimising Your Dive Experience with Advanced Dive Computer Features

Maximising your shark dive in West Palm Beach’s low-visibility waters starts with fully leveraging your dive computer’s capabilities to enhance safety, comfort, and awareness underwater. Here are practical, technology-driven strategies to get the most out of your device and elevate your dive adventure.

Understand and Personalise Your Settings

• Customise Gas Mixtures: Accurately input your Nitrox or gas blend settings to ensure your computer precisely calculates your no-decompression limits and safe bottom time, especially crucial when visibility is limited and situational awareness relies heavily on device feedback.
• Set Alarms and Alerts: Use depth, ascent rate, and time alarms to receive timely warnings that help you avoid unsafe behaviours like rapid ascents or exceeding planned bottom times. Alarms can be key during disorienting low-visibility conditions common in West Palm dives.
• Choose the Right Algorithm: Different dive computer models use varying decompression algorithms (conservative, liberal, or adaptable micro-bubble models). Selecting one aligned with your diving style and experience ensures accurate status updates and optimal safety margins.

Use Real-Time Data for Adaptive Dive Management

• Dynamic Nitrogen Tracking: Advanced computers continuously recalibrate nitrogen loading based on your actual dive profile rather than theoretical tables. This real-time info helps you extend your dive safely while optimising bottom time.
• Physiological Monitoring: Some state-of-the-art models integrate heart rate and breathing rate sensors to adjust decompression stops adaptively, tailoring the dive profile to your physical exertion for extra safety during intense shark encounters or navigation through silt-heavy waters.
• Profile-Dependent Stops: Utilise features like Profile Dependent Intermediate Stops, which calculate stop times not just based on the current dive but also cumulative nitrogen from previous dives, helping you better manage repetitive dive safety.

Leverage Connectivity and Logging for Post-Dive Benefits

• Wireless Air Integration: Pair your dive computer with wireless tank pressure transmitters to monitor air consumption seamlessly. This allows better dive planning in conditions where visual cues might be obscured.
• Data Logging and Sharing: Take advantage of dive logs that include depth profiles, temperature, and location data. Syncing these with mobile apps or dive databases supports personal dive reviews and shareable insights, which are invaluable for improving future dive strategies.
• Rechargeable and Long-Life Batteries: Opt for computers with USB-rechargeable batteries to ensure uninterrupted functionality during trips, minimising the risk of battery failure mid-dive in remote locations like West Palm Beach.

Best Practices to Elevate Your Dive

1. Activate Your Computer Early: Switch on your dive computer well before the dive to ensure accurate tracking of residual nitrogen from surface intervals, important for multi-dive days common in popular shark diving spots.
2. Respect Safety Stops and Limits: Trust your dive computer’s alarms and decompression guidance, especially when underwater visibility is poor, to prevent decompression sickness and extend safe dive experiences.
3. Keep Firmware Updated: Regularly update your device’s software to benefit from the latest algorithm improvements and new feature integrations that can enhance your dive safety and enjoyment.

By mindfully configuring your dive computer, embracing dynamic data for on-the-fly adjustments, and using connectivity features optimally, you’ll not only boost your confidence and safety on each West Palm expedition but also deepen your understanding and enjoyment of every dive into low-visibility shark habitats.

How to Maximize Your Dive Experience Using Technology

Top Diving Computers for Low Visibility: Essential Comparisons for West Palm Expeditions

When diving in low visibility environments, especially in sharks’ habitats near West Palm Beach, clarity and rapid access to critical information become paramount. Several diving computers stand out in 2025 for their superior display technology, ruggedness, and safety features designed to enhance diver experience and reduce risks in murky or dim conditions.

Shearwater Peregrine TX

• Display: Features a vibrant AMOLED screen known for exceptional brightness and contrast, which ensures excellent readability in near-dark environments where light penetration is minimal.
• Customisable Layouts: Allows divers to prioritise key metrics like depth, no-decompression limit (NDL), and ascent rate, minimising distractions underwater.
• Durability: Built with robust materials that withstand repeated exposure to harsh saltwater conditions, making it highly dependable for frequent shark dive excursions.
• Battery Life: Optimised to last across multiple dives without compromising display brightness or function.
• Best suited for budget-conscious divers seeking a technically advanced, clear display for complex dives in low visibility.

SCUBAPRO G2

• Display: Utilises a full-colour TFT screen with high resolution and excellent low-light differentiation, providing clear colour-coded safety alerts even in murky waters.
• Safety Features: Includes audible and visual alarms for critical parameters such as ascent speed, decompression stops, and low tank pressure, facilitating enhanced safety awareness.
• Battery: Rechargeable with an extended battery life (up to 50 hours), which supports long expeditions without the need for frequent recharging.
• Ideal for recreational and technical divers who want a colourful, intuitive interface with reliable alert systems under challenging visual conditions.

Garmin Descent MK3i and Descent X50i

• Display: Equipped with high-resolution AMOLED (MK3i) and a 3-inch RGB screen (X50i), these computers deliver crisp visuals with vibrant colours and contrast suited for low visibility.
• Advanced Features: The X50i model adds SubWave™ underwater messaging technology, enabling communication among dive teams in visually limiting scenarios like murky West Palm waters.
• Navigation: Built-in GPS and surface tracking are invaluable for divers entering unfamiliar or low-visibility sites, supporting safe navigation and back-to-boat tracking.
• Air Integration: Real-time tank pressure monitoring reduces reliance on multiple instruments, improving situational awareness and workflow underwater.
• Perfect for technical and advanced recreational divers who prioritise safety, team communication, and navigation in low-visibility ocean environments.

Alternative Options

• Aqualung i330R: Offers a clear colour display with three customisable layouts and a budget-friendly price, suitable for divers seeking basic low-light functionality.
• Mares Genius: Known for its ultra-bright screen and excellent sunlight readability, providing confidence in variable visibility, including murky water.

Key Features to Prioritise When Choosing a Low Visibility Diving Computer

• Display Technology: Opt for AMOLED, OLED, or high-contrast TFT screens to ensure vital data stands out even without natural light.
• Customisable Information: Being able to tailor what shows on the screen helps reduce cognitive load and improves reaction time underwater.
• Robust Alarms: Both audible and visual alerts for ascent rate, decompression, and air supply support safer diving in challenging visibility.
• Battery Life: Dive trips involving multiple dives or extended bottom times require a computer with long-lasting or rechargeable batteries.
• Durability and Water Resistance: Saltwater corrosion resistance and impact-resistant materials extend your computer’s life and dependability.
• Navigation Aids: GPS and underwater communication raise safety levels during drift or shark diving expeditions in unpredictable low visibility environments.

Selecting a diving computer that excels in low visibility conditions not only improves your dive experience but also significantly enhances your safety during shark dives around West Palm. Prioritise high-contrast, bright displays combined with rugged, user-friendly design to make the most of your expedition.

Comparing Top Diving Computers for Low Visibility

Choosing the Best High-Contrast Dive Computer for Low-Visibility Shark Diving in West Palm Beach

When diving in the often murky, green-tinged waters off West Palm Beach, a dive computer with a high-contrast display can be a lifesaver—literally. The combination of low ambient light and reduced underwater visibility poses unique challenges for reading critical dive data, making screen clarity and ease of interpretation paramount. Selecting the right dive computer enhances safety, situational awareness, and overall experience during shark dives, where every second and alert matters.

Shearwater Peregrine TX emerges as a premier choice for these conditions, due largely to its superior AMOLED screen technology. AMOLED displays provide true blacks and vibrant colours, delivering ultra-high contrast that significantly improves readability in dim or murky settings. This is crucial when you need to quickly glance at data like depth, no-decompression limits (NDL), and gas reserves during an intense shark encounter.

• Customisable display layouts allow divers to prioritise key information based on personal preference or dive profile, cutting down clutter and speeding comprehension.
• Wireless integration with up to four transmitters makes real-time air management effortless, a critical safety aspect when multi-gas setups or stage bottles are used in technical shark dives.
• Audible and vibration alarms enhance awareness by providing non-visual alerts, essential when visibility is severely limited or when focusing on the environment is key.

Compared to other options, the SCUBAPRO G2 sports a full-colour TFT display that is vibrant and suitable for recreational dives but typically offers lower contrast than AMOLED. While it boasts a longer rechargeable battery life—up to 50 hours—and solid safety alarms, the less intense contrast can make it more challenging to read in low-light, high turbidity conditions common around West Palm Beach.

Consider these shark-specific factors when choosing:

• High-contrast visibility: Sharks are drawn to strong contrast and silhouettes. A display with bright and high-contrast elements helps the diver maintain situational awareness without introducing distracting or provocative visuals.
• Iconography clarity: Instant recognition of icons for depth, no-deco time, and gas pressure avoids unnecessary focus breaks during encounters.
• User interface simplicity: Intuitive operation under stressful or low-visibility diving conditions reduces errors and improves safety.

In summary, for the low-visibility, shark-rich waters of West Palm Beach, the Shearwater Peregrine TX is highly recommended for its cutting-edge AMOLED technology, comprehensive gas integration, and pragmatic alarm system. It provides the best balance of contrast, function, and safety features, making it ideal for both recreational and technical shark dives in challenging environments.

Features Comparison

Feature	Shearwater Peregrine TX	SCUBAPRO G2
Display Type	AMOLED (True Black, High Contrast)	Full-Colour TFT (Bright, but Lower Contrast)
Wireless Air Integration	Supports up to 4 Transmitters	No Wireless Air Support
Battery	Rechargeable, Moderate Duration	Rechargeable, ~50 Hours
Customisation	Highly Customisable Layouts	Customisable Screens, Less Flexible
Alarms	Visual, Audible, Vibrating	Visual and Audible

Practical Tips for Purchase

1. Test readability: Whenever possible, view the dive computer under various lighting conditions to gauge screen clarity.
2. Match features to dive style: If planning tech or multi-gas dives where gas management is critical, prioritise wireless air integration.
3. Consider battery needs: Longer dive trips may favour extended battery life; however, quality of display and safety features should not be compromised.
4. Check upgrade and support: A manufacturer with frequent firmware updates and responsive customer service can ensure your device stays reliable and compatible.

Choosing a dive computer optimised for low-visibility shark diving can significantly improve your safety and confidence on each dive, allowing you to focus on the thrill and adventure of the underwater world without distraction.

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Sources

• Adreno – Scuba Diving Computers FAQ
• Scuba Diving – Best Dive Computers Reviewed
• Scuba Diving – Best Dive Computers 2021
• DivesSI – Mastering Dive Computers: An Essential Guide
• ScubaBoard – Dive Computer Advice Forum
• YouTube – Best Dive Computer for Beginners & Advanced Divers
• Florida Scuba Diving – The Shocking Truth About Entry-Level Dive Computers
• DTMag – Dispelling Common Scuba Myths