#Chlorella Microalgae Under Microscope

Watch Reels videos about Chlorella Microalgae Under Microscope from people all over the world.

Watch anonymously without logging in.

Related Searches

microscopesmicroscopeunder microscopemicroalgaechlorella microalgae microscopemicroscopsmicroalgae microscope

Trending Reels

(12)
#Chlorella Microalgae Under Microscope Reel by @brittbakerwanders - Something I'm learning about algae is the different forms it takes depending on its lifecycle and environment. Some algae like these form balls called
460
BR
@brittbakerwanders
Something I’m learning about algae is the different forms it takes depending on its lifecycle and environment. Some algae like these form balls called cysts to protect them during the winter. The cell walls thicken to protect them from the cold. 🥶 Sample: pond water 🔬 Motic BA310 #biology #microscope #algae
#Chlorella Microalgae Under Microscope Reel by @desi_morrison - I missed my opportunity to post this bleeding algae on Halloween (it's unfortunately not actually bleeding)! I found some interesting dark globs of
1.3M
DE
@desi_morrison
I missed my opportunity to post this bleeding algae on Halloween (it’s unfortunately not actually bleeding)! I found some interesting dark globs of Cyanobacteria growing on the air tube in my stock tank. These globs were shiny and nearly black…until you crushed them. Then they released a deep red pigment. There wasn’t much living inside those mats, but the life on and around them kept me busy: Lacrymaria, Stentor, Dileptus, a few flagellates I didn’t bother trying to identify because I know my limits, some Euglenoids, and a rotifer from the family Notommatidae. It’s one of those samples that reminds me why I love microscopy. 🔬 Olympus BX51 w/ DIC from @mundaymicroscope 🎥 iPhone 14
#Chlorella Microalgae Under Microscope Reel by @jam_and_germs (verified account) - These beauties are unicellular algae called Euglenaria. Euglenaria are photosynthetic organisms, meaning they produce their own food from water, carbo
136.3K
JA
@jam_and_germs
These beauties are unicellular algae called Euglenaria. Euglenaria are photosynthetic organisms, meaning they produce their own food from water, carbon dioxide, and light, just like plants. They perform this magic inside specialized structures called chloroplasts. But Euglenaria didn’t always have chloroplasts. They acquired them in a strange, but surprisingly common, way. . Bear with me please when I try to compress literally billions of years into a few sentences. 😂 . Around 3 billion years ago, a bacterium evolved oxygenic photosynthesis, using sunlight to split water and release oxygen for the first time in Earth’s history. Then, this bacterium was swallowed by a larger cell. Instead of being digested, it survived inside the host’s transparent belly. At the beginning, these were two separate organisms. The cyanobacterium produced sugar during the day and shared some of it with the host. In return, the host supplied waste products the bacterium needed for its metabolism. The bacterium divided inside the host packing it up with tiny green factories; the host divided in turn, passing half of the bacteria population to each daughter cell. . Over millions of years and probably trillions of generations, cyanobacteria lost genes and started relying more on the host and eventually this partnership became permanent. This event is known as primary endosymbiosis. What was once a free-living bacterium became a chloroplast, which eventually gave rise to green algae and the land plants. . Then it happened again. . An ancestor of Euglenaria, one that could not photosynthesize, swallowed one of these algae and didn’t digest it. That captured alga became a light-powered organelle in millions of years, giving rise to Euglenaria. This second capture is called secondary endosymbiosis. In some other organisms, the process repeats yet again, producing organisms with tertiary endosymbiosis; photosynthesis engines inside cells that already came from cells inside other cells. 🤯 Kinda crazy but we have many examples of this same pattern repeating again and again in the history of life. . Thank you for reading! Please consider supporting me via the links in my bio . James
#Chlorella Microalgae Under Microscope Reel by @microscopebro - Your favorite microscope bro 🫥 has upgraded his camera game 😆. I hope to bring y'all better, more interesting videos and maybe you'll notice the di
333.2K
MI
@microscopebro
Your favorite microscope bro 🫥 has upgraded his camera game 😆. I hope to bring y'all better, more interesting videos and maybe you'll notice the difference in today's post. Anyways, this time we're looking at an algae called Volvox. 🔬 I've been wanting to do a video on Volvox for a while, but finally have the equipment to do it justice. Volvox are actually colonies of hundreds to thousands of smaller cells that work together to do lots of things. Some are moving the colony towards a light source for photosynthesis, some are making the food, and others are reproducing. You can find them in places like freshwater ponds that get plenty of sunlight. They are super fragile and need steady conditions to thrive. Please let me know if you enjoyed this style of filming as I'm always looking for ways to improve! And if you're new here, I post videos of microorganisms, crystals, and other interesting substances under a microscope. Give this page a follow to see more. 😆 Best, Alex
#Chlorella Microalgae Under Microscope Reel by @couch_microscopy - Lots of Trachelomonas sp. cells. Sped up >10x. Darkfield microscopy. Another one from my collection trip with @polarblairx! . Trachelomonas is a genus
2.0K
CO
@couch_microscopy
Lots of Trachelomonas sp. cells. Sped up >10x. Darkfield microscopy. Another one from my collection trip with @polarblairx! . Trachelomonas is a genus of euglenids. Euglenozoa are a phylum of microbes that are part of the protist supergroup called Discoba. All euglenids share some traits like flagella which are string-like appendages on the cell that help the organism move around. Most, like Trachelomonas, are photosynthetic but other euglenids like Peranema sp. (that I’ve posted previously) are not. Usually the photosynthetic ones are green and have a plastid, the organelle that does photosynthesis to transform light energy into chemical energy. Unlike most other algae (organisms with plastids), euglenids acquired theirs from a green alga in a process called secondary endosymbiosis. There are lots of secondary endosymbioses among protists (see past posts) but most involve a red algal plastid, not a green one! In this case, an ancestral euglenid engulfed and maintained a green algal cell and ultimately kept its photosynthetic organelle and passed it on until it became a permanent fixture within the cell. . So why are Trachelomonas not always green? They are most often a coppery color and I always think of them as microscopic pennies. In this video you can see that they are orange/brown. This is due to ferric hydroxide (iron) and manganese that accumulates over time in the lorica (outside casing) of the cell. When the cell is younger, the lorica is transparent and the green pigment from the plastid shows up from inside the cell. As the cells get older and accumulate more metals, you start to see an orange ring form around them, and eventually, the whole cell appears orange. The ciliates in the previous post were from the same sample so this swamp environment must be rich in iron and manganese. . Many euglenids, including Trachelomonas also have a red “eyespot” that helps them sense changes in light which is key for optimizing photosynthesis. This process is called phototaxis. Phototaxis explains why they all congregate in this video. They are likely all moving to an area with better light availability. . #microscopy #biology #botany #biodiversity #protist
#Chlorella Microalgae Under Microscope Reel by @thehuman_grid - Under a microscope, a leaf is not just green tissue. It contains layered cells, chloroplasts that capture sunlight, and microscopic stomata that regu
116
TH
@thehuman_grid
Under a microscope, a leaf is not just green tissue. It contains layered cells, chloroplasts that capture sunlight, and microscopic stomata that regulate gas exchange. Every leaf is a structured, living solar system of cells working together. #PlantAnatomy #Microscopy #Botany #BiologyReel #ScienceVisual
#Chlorella Microalgae Under Microscope Reel by @biology_bloom - Dive into the world of plant cells! 🌱 Learn the 7 key features that make them unique: rigid cell wall, large central vacuole, no centrosomes, chlorop
142
BI
@biology_bloom
Dive into the world of plant cells! 🌱 Learn the 7 key features that make them unique: rigid cell wall, large central vacuole, no centrosomes, chloroplasts for photosynthesis, no lysosomes, tonoplast around the vacuole, and plastids galore. #biology #plantcell #science #biology_bloom 📚✨
#Chlorella Microalgae Under Microscope Reel by @biotech_guide - Counting microbes isn't guesswork - it's science! 🧫Using CFU (Colony Forming Units) #biotech_guide .. Ever wondered how scientists count millions o
2.0K
BI
@biotech_guide
Counting microbes isn’t guesswork — it’s science! 🧫Using CFU (Colony Forming Units) #biotech_guide .. Ever wondered how scientists count millions of bacteria on a tiny plate? 🤔 The answer lies in CFU – Colony Forming Units. From serial dilution → plating → colony counting → CFU calculation, this simple microbiology technique helps estimate bacterial populations with precision. Science is not just observation — it’s calculation. 📊🔬 #science #biotech_guide #biology #microbiologist
#Chlorella Microalgae Under Microscope Reel by @m_s_labtechnician - Microscope Microorganisms 🦠🔬 #microscope #bacteria #labtechnician #labtech #viral
473
M_
@m_s_labtechnician
Microscope Microorganisms 🦠🔬 #microscope #bacteria #labtechnician #labtech #viral
#Chlorella Microalgae Under Microscope Reel by @klesbkpuofficial - KLE "Observation of Leaf Stomata Cells under Microscope 🔬 Explore the tiny openings that help plants in respiration and transpiration. #LeafStomata
233
KL
@klesbkpuofficial
KLE "Observation of Leaf Stomata Cells under Microscope 🔬 Explore the tiny openings that help plants in respiration and transpiration. #LeafStomata #PlantCells #Microscope #BiologyExperiment #ScienceLab CellBiology Shorts Trending myPAL"
#Chlorella Microalgae Under Microscope Reel by @phytopathologygirl - Isolation of bacteria from plant tissue 🌱 After macerating infected plant tissue, serial dilution is done before plating. 🔬 Why dilution? • Plant
38.4K
PH
@phytopathologygirl
Isolation of bacteria from plant tissue 🌱 After macerating infected plant tissue, serial dilution is done before plating. 🔬 Why dilution? • Plant tissues contain high bacterial populations • Dilution lowers cell density • Allows well-isolated colonies to form • Gives non-competitive or slow-growing bacteria a chance to grow without being overgrown • Essential for obtaining pure cultures and accurate identification #bacteriology #phytopathologygirl #phytopathology #bacteria #science

✨ #Chlorella Microalgae Under Microscope Discovery Guide

Instagram hosts thousands of posts under #Chlorella Microalgae Under Microscope, creating one of the platform's most vibrant visual ecosystems. This massive collection represents trending moments, creative expressions, and global conversations happening right now.

The massive #Chlorella Microalgae Under Microscope collection on Instagram features today's most engaging videos. Content from @desi_morrison, @microscopebro and @jam_and_germs and other creative producers has reached thousands of posts globally. Filter and watch the freshest #Chlorella Microalgae Under Microscope reels instantly.

What's trending in #Chlorella Microalgae Under Microscope? The most watched Reels videos and viral content are featured above. Explore the gallery to discover creative storytelling, popular moments, and content that's capturing millions of views worldwide.

Popular Categories

📹 Video Trends: Discover the latest Reels and viral videos

📈 Hashtag Strategy: Explore trending hashtag options for your content

🌟 Featured Creators: @desi_morrison, @microscopebro, @jam_and_germs and others leading the community

FAQs About #Chlorella Microalgae Under Microscope

With Pictame, you can browse all #Chlorella Microalgae Under Microscope reels and videos without logging into Instagram. No account required and your activity remains private.

Content Performance Insights

Analysis of 12 reels

✅ Moderate Competition

💡 Top performing posts average 445.3K views (3.0x above average). Moderate competition - consistent posting builds momentum.

Post consistently 3-5 times/week at times when your audience is most active

Content Creation Tips & Strategy

🔥 #Chlorella Microalgae Under Microscope shows high engagement potential - post strategically at peak times

✍️ Detailed captions with story work well - average caption length is 691 characters

📹 High-quality vertical videos (9:16) perform best for #Chlorella Microalgae Under Microscope - use good lighting and clear audio

Popular Searches Related to #Chlorella Microalgae Under Microscope

🎬For Video Lovers

Chlorella Microalgae Under Microscope ReelsWatch Chlorella Microalgae Under Microscope Videos

📈For Strategy Seekers

Chlorella Microalgae Under Microscope Trending HashtagsBest Chlorella Microalgae Under Microscope Hashtags

🌟Explore More

Explore Chlorella Microalgae Under Microscope#microscopes#microscope#under microscope#microalgae#chlorella microalgae microscope#microscops#microalgae microscope