Vibrant clusters of white and red bleeding heart vine flowers hanging amidst lush green leaves. This detailed botanical shot captures the delicate petals and natural beauty of the Clerodendrum thomsoniae plant.
Tags:
PHOTO INFO
- Image Size
- 2730x1820px
- File Size
- 863.9KB
- resolution
- 2K
- License
- Commercial use free
- Aesthetic Score
- 78/100
VISUAL ATTRIBUTES OF THIS STOCK PHOTO
- Color temperature
- neutral
- Brightness
- mid_tone
- Saturation
- vibrant
- Lighting Source
- natural
- Lighting Condition
- overcast
- Negative Space
- small
- Negative Space Location
- none
- Depth Of Field
- medium
- Has People
- none
- Season
- spring
- Time Of Day
- morning
- Shot Scale
- close_up
- Background Type
- natural_scene
- Orientation
- horizontal
- Composition Style
- close_up
- Dominant colors
- whiteredgreen
- Palette Style
- naturalvibrant
- Mood
- naturalserene
- Style
- botanicalnature
- Subject type
- flowerplant
aesthetic analysis & score
This is a high-quality botanical image with excellent color contrast and sharpness, making it visually appealing and commercially viable for nature and gardening contexts.
Composition & Framing
75The frame is densely packed with floral clusters, creating a rich texture but leaving little negative space for design flexibility.
Lighting & exposure
80Soft, diffused lighting evenly illuminates the white bracts and red petals without harsh shadows or blown-out highlights.
Color harmony & palette
85The striking contrast between the bright red flowers, pure white bracts, and deep green foliage creates a visually pleasing and natural color harmony.
Visual impact & mood
78The image conveys a fresh, natural, and vibrant mood, effectively capturing the delicate beauty of the plant.
Technical Quality & Clarity
82The image is sharp with good detail on the flower petals and leaf textures, showing professional focus and clarity.
Subject clarity & focal hierarchy
80The red flowers naturally draw the eye against the white and green background, establishing a clear focal point within the dense cluster.