4.6K
MIpotato chips under the microscope #microscope #viral #viralreels #reel #reelsinstagram #reels #microscopic #viralreel
@microscopic_world_mw
#Microscopic
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トレンドリール
(12)
13.9M
USThe post features a video progressively zooming into a human eye, from macroscopic to microscopic views of its fibrous iris structure, to illustrate biological complexity as undeniable evidence of divine design.
Replies in the thread polarise opinion, with atheists countering via evolutionary examples like intermediate eye forms in nature and imperfections such as tumours, while supporters echo affirmations of faith.
The linked Substack expands on irreducible complexity in cellular systems, citing protein folding probabilities below 10^{-77} as impossible by chance, though evolutionary models like Nilsson and Pelger's 1994 study demonstrate eye development via incremental natural selection in mere hundreds of thousands of years.
@user_missinn
10.7M
TAI think I found a shiny Pokemon 👀 and a pretty rare one! ✨
Not long after I started microscopy, I saw this disco dancer tardigrade that @my.microscopic.world posted and I went CRAZY! I passed months trying to find this particular species because they look like gems under polarized light! Not only their muscle strands glow but their exoskeleton and their stomach know how to put an ambiance to a party 🕺🏻 You probably have seen the mama bear I posted two weeks ago which was huge, but since she was pregnant and pretty thick, the light couldn’t pass through her like it does with this one 🥰
Milnesium tardigrades, which is the name of this water bear genus, are cosmopolitan and carnivorous and they love to feed on nematodes and rotifers! Adult Milnesium can even swallow rotifers whole 😳 I’ll need to see it from my myself to believe it though 😂
These water bears are characterized by the presence of six peribuccal papillae which make their mouths look like little crowns 👑 and two lateral papillae. Their claws are also waaay longer than those I usually post about. These claws are also separated into independent primary and secondary branches.
Milnesium can live up to 2 months and lay around 40 eggs during that time. The eggs will take around 6 days before hatching 🐣
Video taken with my iPhone mounted on a BA310E Motic microscope with an @ilabcam adapter 🔬
References:
Morek, W., Ciosek, J. A., & Michalczyk, Ł. (2020). Description of Milnesium pentapapillatum sp. nov., with an amendment of the diagnosis of the order Apochela and abolition of the class Apotardigrada (Tardigrada). Zoologischer Anzeiger, 288, 107-117.
Nelson, D. R., Guidetti, R., & Rebecchi, L. (2015). Phylum Tardigrada. Thorp and Covich’s Freshwater Invertebrates, 347–380.
Schill, R. O. (Ed.). (2018). Water Bears: The Biology of Tardigrades. Zoological Monographs.
Suzuki, A. C. (2003). Life history of Milnesium tardigradum Doyère (Tardigrada) under a rearing environment. Zoological Science, 20(1), 49-57.
@tardibabe
398.3K
JAThis is a single-celled organism with an ingested, and still alive, microscopic multicellular organism inside its cell.
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The single-celled organism is a Stentor. They can grow a few millimeters in length, the largest one I’ve seen was almost as long as a grain of rice. They feed on all sorts of microscopic organisms, and this one swallowed a multicellular organism, a rotifer with organs, a simple brain, muscles, and even two little eyes.
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Single-celled organisms can be incredibly complex without having specialized cells like neurons to transfer signals, skin cells to protect their bodies, or stomach cells to release digestive enzymes. Instead of having specialized cells that form organs and systems, a single cell has to do everything with organelles and subcellular structures.
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And the multicellular animal, the rotifer, is just like the larger animals you see with the naked eye, just microscopic. It’s composed of around a thousand cells, and all the cells in its body rely on one another to survive. The whole animal depends on all these systems working together to keep itself alive.
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Stentor has tiny hair-like structures around its cell that beat and create a water current, drawing food into its cell-mouth, which is just a specialized compartment of the cell. As the rotifer gets swallowed, it’s wrapped into a bubble-like structure and forms a vacuole inside the Stentor’s cell. That vacuole quickly becomes almost as acidic as our stomach and melts down whatever is inside.
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The rotifer was stretching itself to break out of the cell, and in a few frames you can actually see its foot making a hole through the Stentor’s cell. In the literature, there are a few reports of rotifers breaking free this way, but this one wasn’t as lucky. After about 30 minutes, it was completely still because of digestive enzymes.
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I tried to explain the concept of unicellularity while keeping it within the word limit. I hope I managed! But feel free to ask if you have questions! Thank you for reading, and please consider supporting my work so I can continue creating videos like this.
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Best,
James Weiss
@jam_and_germs
1.9M
SOThe Lemon That Destroyed Everything 🍋
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Three lemons.
Two perfectly fresh.
One already lost to mold.
They sat side by side for 52 days… and what happened next wasn’t loud — it was quiet, slow, and almost invisible at first.
Day by day, microscopic spores drifted through the air. No drama. No warning. Just biology doing what biology does. Until eventually, the healthy lemons weren’t healthy anymore. Thick green and white fungus took over all three.
Scientifically, it’s simple: mold spreads through airborne spores, especially in close, humid spaces. Proximity matters more than most people realize.
But the deeper lesson hits harder.
Environments change you.
What you sit next to… shapes you.
What you tolerate… eventually touches you.
Decay rarely starts with everything.
It usually starts with just one thing left unchecked.
Protect your circle. Protect your space. Protect your mind.
Follow @solviaorigin for more knowledge that makes you look twice.
@solviaorigin
7.2M
DRWhile you sleep, your muscles are far from resting. This animation reveals the microscopic world inside your cells, where proteins get to work repairing and rebuilding muscle tissue. Specialized motor proteins move along tiny cellular pathways, delivering the materials needed to fix damage from the day’s activity. It’s a reminder that sleep isn’t passive—it’s an active, essential part of muscle recovery and growth.
✅Follow @drdavidabbasi for More Daily Medical Content & Health Tips!
🌴😷Schedule a consultation to see Dr. Abbasi as a patient in Delray Beach! Visit www.primeorthocenter.com
@drdavidabbasi
168.0K
MEMicroscopic view of a slice of lemon🍋🍋
👇👇👇👇
Follow and explore amazing science world..🔬🔬🔬🔬🔬
👇👇👇👇👇👇👇👇👇
Follow :- @medicalfuture.sb
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Tag your friends and follow us for exploring amazing world of microbiology and science 😍😍😍
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🅻🅸🅺🅴 , 🆂🅷🅰🆁🅴 🅰🅽🅳 🅲🅾🅼🅼🅴🅽🆃
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All the credits are reserved for the original content creator and no infringement of copyright is intended.
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#doctor #medicine #medical #medschool #medstudent #forensics #autopsy #futuredoctor #mnemonics #doctors #medstudents #medicalstudent #clinical #gynaecology #paramedicstudent #physiology #pharmacy #surgery #pathology #anatomy #obstetrics #reelsitfeelsit #reelvideo #reelsinstagram
@medlok1
3.9M
_EDisc Mist Maker (Piezoelectric Ceramic Technology):
A disc mist maker is a small device that turns water into a visible fog using a piezoelectric ceramic disc. When electricity flows through the disc, it vibrates at an ultrasonic frequency (around 1.7 MHz), breaking the water surface into millions of microscopic droplets. Because it uses vibration instead of heat, the mist stays cool and safe to touch.
The core of this system is the piezoelectric ceramic, which expands and contracts rapidly when an electric current is applied. These fast vibrations push the water upward and downward, creating tiny pressure waves that lift water particles into the air as a fine mist. This process is extremely efficient and requires very little power.
Disc mist makers are commonly used in humidifiers, aroma diffusers, indoor fountains, terrariums, and plant systems. They are popular because they are silent, energy-saving, and visually appealing, making them perfect for both practical use and decorative effects.
#foryou #reels #discovery
@_erascope
2.7M
NABeneath the surface of a shallow tide pool… a silent war ignites. 🌊⚡
Mantis Shrimp vs. Pistol Shrimp —
two of the ocean’s most extraordinary biological weapons face off in a space smaller than your hand.
Cavitation bubbles explode like microscopic grenades.
Sonic shockwaves ripple through the water.
Strikes snap faster than a speeding bullet.
No metal. No gunpowder.
Just evolution at its most extreme.
In this tiny underwater arena, power isn’t measured in size —
it’s measured in speed, precision, and shock.
#MantisShrimp #PistolShrimp
#UnderwaterBattle #MarinePredators
#OceanMicroWorld ExtremeMacro NatureUnleashed
@natgeo7wild
2.0M
CLSand fleas, also known as mole crabs, live buried in the swash zone where waves constantly move in and out. They filter feed on microscopic plankton as water washes over them and can rebury themselves in seconds when exposed. Because they’re so abundant along shorelines, they play a major role in coastal ecosystems and are a primary food source for surf fish like pompano, redfish, and striped bass. Anglers often collect them by raking wet sand during receding waves, making them one of the most effective natural baits for shoreline fishing.
#beach #fishing #nature
@cliprotter
3.4M
EXThis video provides a fascinating microscopic look at stomata (singular: stoma), the tiny, mouth-like pores found on the surface of plant leaves.
What are Stomata?
Derived from the Greek word for “mouth,” stomata are essential for a plant’s survival. They act as the primary gateways for gas exchange, allowing the plant to “breathe.”
How They Work
• Guard Cells: Each pore is flanked by two specialized, kidney-shaped guard cells. These cells control the opening and closing of the pore.
• Opening: When the plant has plenty of water, the guard cells become turgid (swollen), causing them to curve outward and open the pore.
• Closing: When the plant is dehydrated or under stress (like extreme heat), the guard cells lose water, become flaccid, and collapse together to seal the pore shut.
Why They are Important
Stomata perform a delicate balancing act to keep the plant alive:
1. Photosynthesis: They open to let in Carbon Dioxide (CO_2), which the plant uses to make food.
2. Oxygen Release: As a byproduct of photosynthesis, Oxygen (O_2) is released back into the atmosphere through these same pores.
3. Transpiration: This is the process where water vapor escapes the plant. While it helps cool the plant and move nutrients up from the roots, too much water loss can be fatal, which is why stomata close during droughts.
Fun Fact: Most land plants have the majority of their stomata on the underside of their leaves to shield them from direct sunlight and reduce unnecessary water loss.
@explained_science
389.1K
DEThis predatory worm was picking off rotifers left and right!
I was lucky to capture two short clips of our hungry friend locating and devouring two rotifers (clips 1 & 2). Then it tried its luck with a Stentor and appeared to be entirely disgusted as it spat it right back out (clip 3).
I posted clip 3 as a slomo back in September.
🦠 One predatory worm, two rotifers, one Stentor
🔬 Olympus BX51 w/DIC
🎥 iPhone 14 + iLabCam Ultra
👩🏼 Desirée Moffitt
🏷️ #microscopy #predatorprey #microorganisms #microbiology #natureismetal #bioart #tinynature #ecology #microscopic #science #biology #wildlife #nature #olympus #artinnature #scienceandart #microscope #sciart #shotoniphone #Olympus #sciencenerd #weirdscience #scienceiscool #nature_perfection #explorenature #lifeonearth #smallworldlovers #hungry #snacktime
@desi_morrison
✨ #Microscopic発見ガイド
Instagramには#Microscopicの下にthousands of件の投稿があり、プラットフォームで最も活気のあるビジュアルエコシステムの1つを作り出しています。
Instagramの膨大な#Microscopicコレクションには、今日最も魅力的な動画が掲載されています。@user_missinn, @tardibabe and @drdavidabbasiや他のクリエイティブなプロデューサーからのコンテンツは、世界中でthousands of件の投稿に達しました。
#Microscopicで何がトレンドですか?最も視聴されたReels動画とバイラルコンテンツが上部に掲載されています。
人気カテゴリー
📹 ビデオトレンド: 最新のReelsとバイラル動画を発見
📈 ハッシュタグ戦略: コンテンツのトレンドハッシュタグオプションを探索
🌟 注目のクリエイター: @user_missinn, @tardibabe, @drdavidabbasiなどがコミュニティをリード
#Microscopicについてのよくある質問
Pictameを使用すれば、Instagramにログインせずに#Microscopicのすべてのリールと動画を閲覧できます。あなたの視聴活動は完全にプライベートです。ハッシュタグを検索して、トレンドコンテンツをすぐに探索開始できます。
パフォーマンス分析
12リールの分析
💡 トップ投稿は平均8.9M回の再生(平均の2.3倍)
週3-5回、活動時間に定期的に投稿
コンテンツ作成のヒントと戦略
💡 トップコンテンツは10K以上再生回数を獲得 - 最初の3秒に集中
✍️ ストーリー性のある詳細なキャプションが効果的 - 平均長991文字
✨ 多くの認証済みクリエイターが活動中(25%) - コンテンツスタイルを研究
📹 #Microscopicには高品質な縦型動画(9:16)が最適 - 良い照明とクリアな音声を使用
#Microscopic に関連する人気検索
🎬動画愛好家向け
Microscopic ReelsMicroscopic動画を見る
📈戦略探求者向け
Microscopicトレンドハッシュタグ最高のMicroscopicハッシュタグ
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Microscopicを探索#kids handheld microscope#microscope diagram#human ashes under a microscope#ophthalmologist cataract surgery operating microscope#lasik surgery ophthalmology operating microscope#salmonella under microscope#euglena microscope#lymphocyte microscope image