A large group of black-bellied whistling ducks stands in shallow water with a blurred forest background. This wildlife photography captures the natural behavior of waterfowl in a sunny outdoor setting.
Tags:
PHOTO INFO
- Image Size
- 2509x1673px
- File Size
- 508.06KB
- resolution
- 1080P
- License
- Commercial use free
- Aesthetic Score
- 76/100
VISUAL ATTRIBUTES OF THIS STOCK PHOTO
- Color temperature
- warm_neutral
- Brightness
- mid_tone
- Saturation
- moderate
- Lighting Source
- natural
- Lighting Condition
- midday
- Negative Space
- small
- Negative Space Location
- bottom
- Depth Of Field
- medium
- Has People
- none
- Season
- summer
- Time Of Day
- afternoon
- Shot Scale
- wide
- Background Type
- natural_scene
- Orientation
- horizontal
- Composition Style
- layered
- Dominant colors
- browngreenwhiteblack
- Palette Style
- naturalearthy
- Mood
- naturallively
- Style
- documentarywildlife
- Subject type
- birdwildlife
aesthetic analysis & score
This is a high-quality wildlife photograph that excels in technical execution and color harmony, offering a vibrant and detailed look at a flock of whistling ducks in their natural habitat.
Composition & Framing
75The wide framing effectively captures the scale of the flock, though the density of birds creates a slightly busy visual field.
Lighting & exposure
82Bright, natural sunlight illuminates the scene evenly, highlighting the rich brown tones of the ducks' feathers without harsh shadows.
Color harmony & palette
80The warm earth tones of the ducks contrast beautifully with the cool greens of the background foliage and the neutral water.
Visual impact & mood
78The scene conveys a lively, natural atmosphere, capturing the collective movement and presence of the bird colony.
Technical Quality & Clarity
85The image is sharp and detailed, clearly defining the texture of the feathers and the reflections in the water.
Subject clarity & focal hierarchy
70While the foreground ducks are distinct, the sheer number of similar subjects creates a repetitive pattern that slightly dilutes a single focal point.