Blue hydrangea.
Shiga, Japan.
Monterey Bay Aquarium
Three Goblin Art
TVSTRANGERTHINGS
PUT YOUR BEARD IN MY MOUTH

JVL

PR's Tumblrdome
todays bird
No title available

Kaledo Art

Kiana Khansmith

JBB: An Artblog!
we're not kids anymore.

ellievsbear
Cosimo Galluzzi
Sade Olutola

shark vs the universe
hello vonnie
NASA
I'd rather be in outer space 🛸
will byers stan first human second

seen from Argentina
seen from Argentina
seen from United States
seen from United States
seen from United States
seen from United States
seen from United States
seen from United States

seen from United States
seen from United States
seen from United States
seen from United States
seen from Chile
seen from Iraq

seen from Malaysia

seen from Italy

seen from Türkiye
seen from United States

seen from Iraq

seen from Brazil
@gloomywolfmushroom
Blue hydrangea.
Shiga, Japan.
little snakes sips | source
Just two humans and their little chaos goblins, wandering through winding woody trails and quiet caves. Squishy soft moss everywhere, fungi dotted around, and lots of tiny crawling critters. Lovely day spent exploring. :3 @imperium-of-vibes
🐾🌿🍄🪨🦋✨
Mossy rock
Spot the slug! Sacoproteus smaragdinus
Image source: https://www.inaturalist.org/observations/132900221
Flag-footed Bug (genus Anisocelis), a member of the leaf-footed bug family (Coreidae). The “flags” are tibial expansions. They serve several purposes: attract mates, a warning they might be toxic and as a diversion, hoping predators will attack the flags and not the insect.
Extreme Macro Photos of Insect Wings by Chris Perani Layer Thousands of Images
Today's worm is this Windmill Worm, Praxillura maculata, or rather its tube I suppose. The ocean is wild???
Photo by Charlotte Seid
Junk Bug - Green Lacewing (Chrysopidae)
These little critters look like wobbling bits of debris, but they're actually called junk bugs or also known as trash bugs, the larval stage of the Green lacewing.
They may look innocent with their tiny backpacks of treasures but they can be quite the cold blooded killers. If you look closely on their back, it isn't just bits of leaves or dirt you're seeing....it's dead bodies!
The junk bug is a voracious predator of aphids, thrips, and mites. With their huge appetite for these pests, they are a huge benefit for gardeners and farmers.
They are covered in spikey hairs and have a large pair of mandibles. Their jaws are large and hollow so they can clamp onto their prey and inject digestive enzymes that liquify the preys organs. The junk bug will then suck out the dissolved juices like a slurpy. Once they are finished with their meal the larvae will adorn their backs with the carcasses of their victims. Also along their travels the junk bug will pick up random skins of aphids, other plant pieces or lichen. They become so unrecognizable that biologist believe this is done as a camoflauge from predators or even to fool some species of ants that like to guard aphids from predators as they want to collect their honeydew secreations for themselves.
In fact, there are instances where biologists took off the little pile of junk from the larvae and when they attempted to enter a group of aphids they were easily detected and attacked. Now, with the others who were so fully disguised in their junk, they used stealth and patience to infiltrate the group of aphids right from under the ants eyes and retreat undetected with its meal.
After about 2 to 3 weeks of feeding the lacewing larva will prepare for pupation by spinning a cocoon. Some species even do so by using the skins of their victims! Hoping to protect itself during metamorphosis.
10 days later an adult lacewing will emerge and usually live for 2 months as mainly solitary insect besides during courtship. Adults will feed on nectar and pollen, but some do feed on aphids as well. Females will lay several hundred eggs in her life time. They make stalks on the underside of leaves by touching their abdomen to it and pulling back making a thread that hardens immediately, and then place a little egg on top of each stalk.
Fun fact: Biologists thought for years that the eggs were fruiting bodies of a fungus they called Ascophora ovalis. The true nature of these eggs were discovered in 1737 by Rene Reaumer, a French physicist, biologist, and inventor.
Source pics: 1, 2, 3, 4, 5, 6
Rohde's or Merten's Leaf Frog (Pithecopus rohdei), family Hylidae, endemic to SE Brazil
Formerly Phyllomedusa rhodei.
photograph by Renato Augusto Martins
Lightning sprites, or red sprites, often occurring in tandem with lightning. They are short-lived electrical discharges that flash high above thunderstorms in the mesosphere layer of the atmosphere. (Photo by Stephen Hummel, McDonald Observatory, Texas, United States)
Gall Wasps: these wasps produce a chemical that triggers abnormal cell growth in plants, causing the plants to form strange-looking structures around the wasp's larvae
Above: plant growths caused by the larvae of three different species of gall wasp, including Trigonaspis teres, Callirhytis seminator, and Feron izabellae
These tumor-like growths are known as plant galls. They develop in response to chemicals that are injected or secreted by certain insects, mites, and nematodes. Each plant gall forms around the body of a single larva (or, in some cases, a small group of larvae), and the structure serves as both protection and sustenance for the tiny creature developing within.
Above: the plant gall of the oak apple gall wasp, Atrusca quercuscentricola, with a bisected view that shows the larva within
There are many different insects that can trigger the production of plant galls, including certain aphids, psyllids, flies, beetles, scale insects, and caterpillars, but gall-forming wasps are especially diverse. They also create some of the most distinctive plant galls in nature.
Above: the photo at the top shows the plant gall of an unidentified gall wasp from the family Cynipidae, and the photo at the bottom depicts the plant galls of the urchin gall wasp, Cynips quercusechinus
The color, shape, size, and texture of each plant gall varies depending on the species of gall wasp that induces it. Some wasps are associated with plant galls that look like fuzzy little pom-poms; others produce mushroom-shaped structures, colorful discs, cones, pink spheres, cottonballs, etc.
Above: this photo shows a mushroom gall wasp, Heteroecus sanctaeclarae, which produces plant galls that look like tiny mushroom-shaped houses
As this article explains:
Galls are plant growths (similar to tumors) that are induced by various organisms such as bacteria, fungi, and insects. Gall wasps have evolved to “trick” the plant into forming this growth which they then use for food and shelter as they transform from a larva to an adult.
The wasp larvae secrete chemicals that mimic growth hormones in a particular plant upon hatching. The chemicals trick the oak into growing a gall on its flowers, acorns, leaves, or stems. The larva is then encapsulated by the gall as it grows, waiting patiently inside until its metamorphosis is complete.
Above: Feron parmula, commonly known as the disc gall wasp
Many of these plant galls have elaborate, colorful features that are truly stunning.
Above: the spined-turban gall wasp, Cynips douglasii
Gall-forming wasps are only parasitic toward plants -- they do not parasitize other animals. The larvae feed on the nutritive tissues of their plant galls, but the adult wasps do not feed at all.
Above: plant galls produced by two different species of gall wasp
These wasps also have a peculiar reproductive cycle:
Many species have alternating generations, meaning all of the adults emerging from galls during one time of the year are female-only, while the adults emerging in a different season have both males and females. Most species have females that can reproduce using parthenogenesis when they emerge by themselves. This means that their eggs are essentially clones of themselves. What’s more, some species appear not to have any males at all.
Above: the huge, fuzzy plant galls of Striatoandricus furnessae and Druon pattoni
Scientists have named and described roughly 1400 species of gall wasp, and that's likely just a fraction of the number of species that actually exist, as gall-forming organisms are widely understudied.
Above: close-up of a gall wasp larva nestled in its plant gall
Once the larva transforms into a fully-developed wasp, it finally emerges from its gall.
Above: adult gall wasps
Sources & More Info:
Forest Watch: Gall Wasps
Gallformers: What the Heck is a Gall?
Southwick Country Park Nature Reserve: Ecosystem Engineers
Insect Systematics and Diversity: Comparative Anatomy of Venom Glands Suggests a Role of Maternal Secretions in Gall Induction by Cynipid Wasps
Entomology Today: Gall-Inducing Wasps Have Enlarged Venom Glands, Study Finds
The British Plant Gall Society: Plant Galls
iNaturalist: Photos of Gall Wasps and Allies
Um 🥺not my usual post but do you like my worms 🥺🥺🥺
New 'scimitar-crested' Spinosaurus species discovered in the central Sahara
by University of Chicago Medical Center
A paper published in Science describes the discovery of Spinosaurus mirabilis, a new spinosaurid species found in Niger. A 20-person team led by Paul Sereno, Ph.D., Professor of Organismal Biology and Anatomy at the University of Chicago, unearthed the find at a remote locale in the central Sahara, adding important new fossil finds to the closing chapter of spinosaurid evolution...
Read more: https://phys.org/news/2026-02-scimitar-crested-spinosaurus-species-central.html
illustrations by Dani Navarro
| blushing phantom butterfly
Cephalopod lovers, meet a squid that’s as cute as its name: the dumpling squid (Euprymna tasmanica)! Also known as the southern bobtail squid, this cephalopod inhabits shallow waters off the coast of southern Australia. It’s an ambush predator and uses mucus glands in its skin to coat itself in sand, where it then lies in wait for prey, like shrimp and small fish. Dumplings must learn to hunt fast: Because males of this species die shortly after mating and females die soon after laying eggs, newborn squid need to fend for themselves. These precocious hatchlings can snag prey twice their size!
Photo: Justin Chan, CC BY-NC 4.0, iNaturalist
Placida dendritica
Image source: https://www.inaturalist.org/observations/177966741