Fungi
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This collection contains 24 assets available in multiple resolutions and aspect ratios.
01 Fungi Hyphae
Resolution: 2160x3840 | Format: 9:16
Color-enhanced micrograph of fungal hyphae weaving through food tissue, blue and green filaments set against an orange, textured matrix, highlighting intricate fungal networks and surrounding cellular debris.
02 Fungi Hyphae
Resolution: 2160x2160 | Format: 1:1
Colorized micrograph of fungal hyphae intertwining within decaying plant tissue, highlighting green and blue hyphae among orange cell walls and scattered spores, revealing microscopic interactions during decomposition.
03 Fungi Hyphae
Resolution: 2160x2160 | Format: 1:1
A high magnification view shows fungal hyphae weaving through decaying tissue, with blue-green filaments and clustered spores embedded in a reddish matrix, illustrating fungal invasion at the microscopic level.
04 Fungi Hyphae
Resolution: 3840x2160 | Format: 16:9
Color-enhanced micrograph revealing intertwined fungal hyphae (green and blue) penetrating a fibrous tissue matrix, coated with spores and debris, illustrating fungal invasion and tissue microstructure at high magnification.
05 Fungi Hyphae
Resolution: 3840x2160 | Format: 16:9
Color-enhanced micrograph revealing fungal hyphae interwoven through a tissue matrix, with blue-green filaments and round spores scattered, illustrating fungal invasion and network formation within a decaying surface.
06 Fungi Hyphae
Resolution: 2160x3840 | Format: 9:16
Colored microscopic view of fungal hyphae interwoven with plant tissue, showing spherical spores and branching filaments within a textured organic matrix, highlighted by vivid color contrast.
07 Fungi Hyphae
Resolution: 2160x3840 | Format: 9:16
Micrograph reveals fungal hyphae interwoven with cellular debris in a food-related tissue sample, showcasing green hyphal networks and blue strands amid textured red-brown surfaces and spores.
08 Fungi Hyphae
Resolution: 2160x3840 | Format: 9:16
Close-up of colorful fungal hyphae weaving through decaying tissue, revealing tiny spores and textured layers, illustrating micro-scale biology within a rotting food specimen.
01 Fungi Colonizing
Resolution: 2160x2160 | Format: 1:1
A micro-scale view of fungi colonizing a food surface, showing teal hyphae and spheres spreading across a golden-yellow substrate, revealing dense networks, interconnections, and active growth at the microscopic level.
02 Fungi Colonizing
Resolution: 2160x2160 | Format: 1:1
Close up of microscopic green mold spores colonizing a food surface, revealing slender stalks and round spores spreading across a textured, yellow-brown substrate in a damp environment.
03 Fungi Colonizing
Resolution: 2160x2160 | Format: 1:1
Close up view of colorful fungal hyphae colonizing a food surface, showing branching filaments and round spores, revealing microbial networks and growth dynamics on a nutrient-rich substrate.
04 Fungi Colonizing
Resolution: 3840x2 | Format: 16:9
Close-up view of blue-green mold fungi colonizing a yellow food surface, showcasing filamentous hyphae and spherical spores spreading across the porous substrate in a microscopic, high-detail illustration.
05 Fungi Colonizing
Resolution: 3840x2 | Format: 16:9
Macro view of tiny turquoise fungi resembling spores sprouting from a golden-brown surface, colonizing a porous food-like substrate with delicate stalks and round heads under bright illumination.
06 Fungi Colonizing
Resolution: 3840x2 | Format: 16:9
Close up view of a vibrant fungal network spreading across a surface, turquoise hyphae branching and colonizing, dotted with round spores, revealing the intricate, thread-like architecture of early mycelial growth.
07 Fungi Colonizing
Resolution: 2160x3840 | Format: 9:16
Micrograph shows fungi colonizing a golden surface, with turquoise hyphae and spherical spores spreading across a nutrient film, creating a delicate network of tiny, glowing structures.
08 Fungi Colonizing
Resolution: 2160x3840 | Format: 9:16
A close-up of turquoise fungal spores standing on slender stalks, forming a delicate colony across a textured brown surface, as if colonizing the area with tiny, glowing filaments.
09 Fungi Colonizing
Resolution: 2160x3840 | Format: 9:16
Close-up microscopic view of fungal spores colonizing a textured surface, with teal spheres connected by faint filaments, suggesting active growth along a skin-like substrate here.
10 Fungi Colonizing
Resolution: 2160x3840 | Format: 9:16
Bright teal fungal spores and slender hyphae spread across a moist surface, revealing a microscopic network of mold growth forming tiny spheres and thread-like filaments.
11 Fungi Colonizing
Resolution: 2160x3840 | Format: 9:16
Close-up micrograph reveals blue-green fungal hyphae colonizing a brown surface, with circular spores; intricate network of filaments weaving through the substrate, captured in vivid contrast and detail for science video.
12 Fungi Colonizing
Resolution: 2160x3840 | Format: 9:16
Close-up of vibrant fungal hyphae weaving a delicate, glowing network with spherical spores dotting the threads, revealing micro-scale colonization patterns and the intricate architecture of a living mold.
01 Fungal spores
Resolution: 3840x2160 | Format: 16:9
Macro view of fungal spores dispersing on a textured surface, with slender hyphae and airborne particles hinting at windborne transmission in natural environments and studies of fungal spread.
02 Fungal spores
Resolution: 1064x1064 | Format: 1:1
Close up of fungal spores releasing from tiny fruiting bodies on a decaying surface, illustrating how spores disperse through the air, guided by wind to colonize new surfaces.
03 Fungal spores
Resolution: 2160x3840 | Format: 9:16
A vivid cross-section of wood reveals vibrant fungal networks, spores, and cellular patterns, blending biology and art to showcase microscopic life and decay in bright, surreal colors.
04 Fungal spores
Resolution: 3840x2160 | Format: 16:9
Cross-section of decaying wood reveals a vibrant network of fungal hyphae and spores, with rainbow-colored strands weaving through the bark, illustrating microscopic decay processes and symbiotic relationships.