Northern Lights Night Landscape Canon EF 16-35mm f/2.8L II USM

Northern Lights Night Landscape Canon EF 16-35mm f/2.8L II USM

Northern Lights Night Landscape Canon EF 16-35mm f/2.8L II USM Ultra Wide Angle Lens, Night Landscape

Canon EF 16-35mm f/2.8L II USM Ultra Wide Angle Lens, Canon 40D, Tripode, Canon Remote shooting. Akureyri, Iceland, 15 seconds, ISO1600

Milky Way between two horizons - Canon Ultra Wide Angle Lens EF 16 35mm f2.8L II

Milky Way between two horizons - Canon Ultra Wide Angle Lens  EF 16 35mm f2.8L II, Canon 40D, Panorama of 7 images 30 seconds each, Night Landscape

Milky Way between two horizons - Canon Ultra Wide Angle Lens  EF 16 35mm f2.8L II, Canon 40D, Panorama of 7 images 30 seconds each, August 12, 2013

Night Landscape, Canon 40D, Ultra Wide Angle Canon Lens EF 16 35mm f2.8L II U

This post is a curated collection of night landscape photographs captured over many years and across multiple countries, all using the Canon EOS 40D and the legendary Canon EF 16–35mm f/2.8L II USM ultra-wide angle lens.

Ultra-wide lenses are especially powerful for night photography. They allow long exposures without star trailing, emphasize foreground structures, and capture dramatic cityscapes, bridges, coastlines, and night skies in a single frame.

These images were taken in a wide variety of environments — from urban Brooklyn and Manhattan to Iceland, Israel, the Galápagos, Puerto Rico, Yellowstone, Utah, and Grand Teton National Park. Together they show how the same camera and lens can produce striking results under very different night-sky and lighting conditions.

Rather than separating these photos by location, this post intentionally brings them together as a single night landscape photography portfolio, illustrating the versatility of ultra-wide lenses for nocturnal scenes.

Night Landscape, Brooklyn, Canon 40D

Manhattan night landscape, Brooklyn Bridge, Canon 40D, Ultra Wide Angle Canon Lens EF 16 35mm f2.8L II U

Verrazano Bridge, Night landscape, Canon 40D, Ultra Wide Angle Canon Lens EF 16 35mm f2.8L II U

Night landscape, Dyker Heights Brooklyn Christmas Lights, Canon 40D, Ultra Wide Angle Canon Lens EF 16 35mm f2.8L II U

Snow night landscape, Canon 40D, Ultra Wide Angle Canon Lens EF 16 35mm f2.8L II U

San Francisco Oakland Bay Bridge at night: Canon 40D, Canon EF 16-35mm f/2.8L II USM Ultra Wide Angle Lens

Akureyri IceLand - Night Landscape - Canon 40D, Canon EF 16-35mm f/2.8L II USM Ultra Wide Angle Lens

Jerusalem Night Sky and WindMill, Canon EF 16-35mm f/2.8L II USM Ultra Wide Angle Lens, Night Landscape

Tel Aviv Night Landscape Canon EF 16-35mm f2.8L II USM Ultra Wide Angle Lens

Mystic Seaport Connecticut Night Landscape, Canon EF 16-35mm f/2.8L II USM Ultra Wide Angle Lens, Canon 40D

Niagara Falls Night landscape view from Canada Canon 60Da Wide filed

Night Sky Yellowstone

Salt Lake City at Night

Milky Way Galaxy Replaces Street-Lamp in Grand Teton Night Sky Astrophotography

San Juan Puerto Rico and Big Dipper - Night Sky

Night Reflection Landscape - Virginia

Night Path Utah Landscape Photography

Aruba Hotel Night View

Longwood Gardens Illuminated Fountain Performance - Pennsylvania

Galapagos Islands at night Canon EF 16-35mm f2.8L II USM Ultra Wide Angle Lens

All photographs in this collection were captured using long exposures and available light, without artificial sky replacement. They represent real night environments — from light-polluted cities to remote dark-sky locations — and document how night photography evolves across geography, weather, and time.

Related Astrophotography & Night Landscape Posts

• Urban Astrophotography – Night Photography in Light-Polluted Cities
• Puerto Rico Astrophotography – Night Sky and Landscapes
• Milky Way Casting Shadows – Atacama Desert, Chile
• Grand Teton National Park – Night Landscape & Milky Way
• Astrophotography in Israel – Night Landscapes and Skies
• Time-Lapse Sunset and Night Sky – Costa Rica

Coronado SolarMax II 60 NexImage Registax Panoramic

Coronado SolarMax II 60 NexImage Panoramic 3 images

Coronado SolarMax II 60 NexImage, Registax, Final Panoramic 3 images, Astrophotography

Milky Way Ultra Wide Angle Canon Lens EF 16 35mm f2.8L II

August 12, 4 images 30 seconds each, Tripod, Canon 40D with Ultra Wide Angle Canon Lens EF 16 35mm f2.8L II U, DeepSkyStacker, PhotoShop

Milky Way, Ultra Wide Angle Canon Lens EF 16 35mm f2.8L II, Canon 40D, Astrophotography 

Observation Perseid Shooting Stars - August 12, 2013

Perseid meteor shower (continue). Some pictures from August 12, 2013

Perseid Shooting Star, Canon 40D, Ultra Wide Angle Canon Lens EF 16 35mm f2.8L II U, 30sec, ISO 1600, , Astrophotography

Milky Way, , Astrophotography

Andromeda Galaxy, Milky Way, meteor or satellite? - , Astrophotography

Sky between trees, Astrophotography

Perseid meteor shower: This bright meteor August 11 2013

I would rather be ashes than dust! I would rather be a superb meteor, every atom of me in magnificent glow, than a sleepy and permanent planet.

- Jack London

These images capture a bright Perseid meteor photographed on August 11, 2013, one night before the peak of the annual Perseid meteor shower. Perseids are known for their fast velocities and bluish-white color, caused by their high entry speed and ionization of atmospheric gases.

This meteor streaked across the constellation Cygnus, leaving a sharp, luminous trail characteristic of Perseid meteors originating from comet 109P/Swift–Tuttle. The photograph was taken from New York under summer night skies using a long exposure to maximize the chance of capturing a meteor.

Camera: Canon EOS 40D
Lens: Canon EF 16–35mm f/2.8L II USM
Exposure: 2 minutes
ISO: 1600
Mount: Tripod
Date: August 11, 2013

Perseid meteor shower: This bright meteor across the Cygnus constellation
August 11 2013 - one night before maximum. Canon 40D Ultra Wide Angle Canon Lens EF 16 35mm f2.8L II U, 2min, ISO 1600, Tripode, NY Astrophotography

The second image below is a cropped and zoomed-in view of the same meteor, revealing its sharp core and subtle color variations. The bluish-white hue is a classic Perseid signature, produced by the meteor’s extreme atmospheric entry speed of roughly 55–65 km/s as it vaporizes in Earth’s atmosphere.

In the zoomed image, the meteor trail clearly shows a classic Perseid structure: it begins as a thin, faint streak, rapidly swells into a thicker and brighter central section, and then tapers off again as the meteoroid fragments and fully ablates in the upper atmosphere. This changing width and brightness reflect variations in velocity, mass loss, and ionization along the meteor’s path.

Because this image was captured as a 2-minute long exposure, the stars do not appear as points but as short arcs, reflecting Earth’s rotation. Despite this, the Cassiopeia constellation is still identifiable in the lower-left corner of the first (wide-field) image, although it falls outside the frame in the zoomed view.

Using Cassiopeia as a reference and comparing the field orientation with a Stellarium sky map, the meteor’s trajectory can be traced back toward the Perseids radiant, which lies just outside the image frame. This confirms the meteor’s direction of motion from lower-left toward upper-right, consistent with a Perseid origin.

Notably, the meteor’s structure also supports this identification: the section closer to the radiant (the beginning of the trail) appears longer and fainter, while the terminal portion farther from the radiant is shorter, brighter, and sharper. This asymmetry reflects the rapid increase in ablation and brightness as the meteoroid penetrates deeper into the atmosphere.

The longer, fainter beginning of the meteor trail can be explained by a combination of perspective effects and atmospheric physics. Near the Perseids radiant, the meteor’s motion is largely along the line of sight, producing a foreshortened, slow-appearing streak. At these very high altitudes, the atmosphere is extremely thin, resulting in faint emission that can extend over a comparatively long visible path.

As the meteoroid penetrates deeper into the denser mesosphere, ablation increases rapidly, producing the bright, thick central section of the trail. Once the particle is fully consumed, the light drops off abruptly, creating a short, sharp terminal end rather than a gradual fade.

Perseid meteor shower: This bright meteor August 11 2013, Canon 40D Ultra Wide Angle Canon Lens EF 16 35mm f2.8L II U, Astrophotography

Together, the meteor’s color, direction, brightness profile, and changing trail structure all point to a classic Perseid meteor captured under summer skies just before peak activity. Even in a single long exposure, careful analysis reveals both the geometry of the radiant and the physical processes governing meteoroid ablation high above Earth.

Related Astrophotography Posts

• Milky Way Casting Shadows in the Atacama Desert – An extreme dark-sky phenomenon where the Milky Way is bright enough to cast visible shadows.
• Urban Astrophotography – Night Sky from New York City – Capturing stars and celestial events under light-polluted city skies.
• Solar Eclipse from New York City – Rare solar eclipse observations made from an urban environment.
• Time-Lapse Sunset and Night Sky in Costa Rica – Early experiments combining motion, clouds, and rising constellations.
• Jupiter at Opposition – Planetary Astrophotography – High-magnification imaging of Jupiter revealing rotation and atmospheric detail.