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blue star fern houseplant

blue star fern houseplant Blue Star Fern ‘Phlebodium aureum’ 2 Gal. / Self Watering / Without Pot

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blue star fern houseplant Blue Star Fern ‘Phlebodium aureum’ 2 Gal. / Self Watering / Without PotThe Blue Star Fern, known as Phlebodium aureum, is a unique and increasingly popular fern for beginners as needs less humidity than other varieties. Its broad, blue green fronds have an unusual, almost wavy texture that lends an exotic feel to any indoor space. In the wild, it grows epiphytically on trees, making it well suited for mounting on surfaces or planting in hanging baskets where its fronds can cascade beautifully. Native to South and Central

The Blue Star Fern, known as Phlebodium aureum, is a unique and increasingly popular fern for beginners as needs less humidity than other varieties. Its broad, blue-green fronds have an unusual, almost wavy texture that lends an exotic feel to any indoor space. In the wild, it grows epiphytically on trees, making it well-suited for mounting on surfaces or planting in hanging baskets where its fronds can cascade beautifully.

Native to South and Central America, the Blue Star Fern gets its name due to the soft, bluish hue of its fronds that resemble star-like shapes when viewed from above.

It has several other common names such as Blue Star Fern, Cabbage Palm Fern, Golden Polypody, Gold Foot Fern, Hare Foot Fern, and Rabbits Foot Fern.

Its popularity stems not only from its visual appeal but also from its ability to improve indoor air quality, making it an attractive, functional addition to any home or office.

A popular feature of the Blue Star Fern is its deeply lobed, velvety fronds, which can grow up to 2 feet long and spread up to 6 feet wide in ideal conditions.

The fronds emerge from a creeping rhizome, which often has a slightly golden tint, adding an additional layer of color to the plant’s appearance.  Its foliage has a soft, almost fuzzy texture, giving it a unique tactile quality not commonly found in other ferns. 

The large blue star fern is a striking addition to any indoor plant collection, with its vibrant color and unique shape.   Its moderate growth rate allows it to fill its space gradually, making it easy to care for and less prone to outgrowing its container quickly.  

As a non-flowering plant, the Blue Fern does not produce blooms, but its vibrant foliage more than compensates for the lack of flowers, providing year-round greenery and aesthetic appeal. 

When and How to Water Your Blue Star Fern 

The Blue Star Fern requires less water and easier to care for than other ferns. This fern is somewhat more resilient than typical tropical varieties, able to go a bit longer between watering sessions without suffering damage. However, allowing the soil to completely dry out is not recommended, as it can lead to stress and browning of leaves.  

In the spring and fall, during the growing season, your Blue Star Fern requires more frequent watering. Water it thoroughly whenever the top inch of soil feels dry to the touch. In most indoor environments, watering every 7–10 days is ideal, depending on the humidity levels. The goal is to keep the soil evenly moist but not soggy, as waterlogged conditions can harm the plant’s delicate roots. Adjust the frequency based on your home’s temperature and humidity; higher temperatures or drier air may require more frequent watering. 

In late fall and winter, during its dormancy period, the Blue Star Fern’s water needs decrease significantly. Water only when the soil is nearly dry, roughly every two to three weeks, as the plant’s growth slows and its water usage drops. The plant can withstand brief periods of dryness during dormancy but will benefit from occasional misting if indoor air is particularly dry. This more conservative watering schedule helps the fern maintain health without overstimulating it during its resting phase.

Light Requirements – Where to Place Your Blue Star Fern 

When growing indoors, Blue Star Ferns prefer bright, indirect light for around 6–8 hours daily. Position it near a north- or east-facing window where it can receive gentle morning sunlight or filtered light throughout the day.

Direct sunlight should be avoided, as it can cause the leaves to scorch and fade in color.

In lower-light settings, this fern can still thrive, although its growth may slow slightly. Supplemental artificial lighting can help maintain vibrant foliage in dim indoor spaces.

For outdoor cultivation, place your Phlebodium aureum blue star in a shaded or partially shaded area.

A spot under a canopy or larger tree where it receives dappled sunlight for part of the day is ideal.

If the plant shows signs of fading color or wilting, try relocating it to a spot with more filtered shade.

Optimal Soil & Fertilizer Needs 

Blue Star Ferns thrive in well-draining, organic-rich soil that retains moisture but doesn’t become waterlogged. An ideal mix for indoor potted plants is a combination of standard potting soil and orchid bark or perlite to enhance drainage. Ideally, you want to use our specialized potting mix, opens in a new tab that contains 5 natural substrates and organic mycorrhizae to promote the development of a strong root system that helps your ferns to thrive.   

For fertilizer, Blue Star Ferns benefit from light feeding during the growing season, roughly once a year from spring to early fall. Use a balanced, NPK fertilizer with an equal ration of about 5-10-5 to avoid overwhelming the plant. Avoid high-nitrogen fertilizers, as these may encourage foliage growth at the expense of root health. During the dormant winter months, fertilizing holds off, as the fern’s nutrient requirements are minimal when growth slows.

Hardiness Zones & More 

When grown indoors, your Blue Star Fern thrives in moderate, indirect light and prefers a consistent indoor temperature range between 60-75°F, making it ideal for home environments. It does best when shielded from direct sunlight, which can scorch its fronds but also needs ample ambient light to thrive. The Blue Star Fern appreciates moderate humidity levels of 40-60%, which can be achieved with a humidifier or occasional misting, particularly in winter or dry climates.

For outdoor cultivation, this fern is suited for USDA Zones 8-12, where it can survive mild winters but will require a shaded spot to avoid excessive sun exposure. It can withstand temperatures down to 20°F but should be protected from frost and intense afternoon sun.

It also benefits from higher humidity, so if grown in drier zones, placing it near water features or misting it occasionally will help maintain its lush appearance. The blue star fern's dry leaves are a sign that it needs more humidity in its environment. Make sure to mist the plant regularly or place a humidifier nearby to help prevent further leaf dehydration.  

Wildlife Blue Star Fern Attracts the Following Friendly Pollinators 

While Blue Star Fern is not a traditional pollinator attractant like flowering plants, it creates a welcoming environment for beneficial insects that support local biodiversity. Its dense fronds provide shade and moisture, which helps attract small, beneficial creatures in shaded outdoor gardens.

Butterflies
Bees
Hummingbirds
Lady Bugs
Multi Pollinators
Other Birds

According to the ASPCA, Blue Star Fern is non-toxic to humans, cats, dogs, and birds. This makes it an ideal choice for pet-friendly homes, as it poses no risk to animals that may chew on their fronds. 

How to Propagate Your Phlebodium aureum 

To propagate Blue Fern, start by dividing its rhizomes during spring or early summer. Gently remove the plant from its pot, shake off excess soil, and separate the rhizomes into smaller sections, each with fronds and roots. Replant each division in a suitable pot with fresh, well-draining potting mix, water thoroughly, and place in a warm area with indirect light. Within a few weeks, the new divisions should begin to establish, showing signs of growth. 

Key Takeaways

  1. In the wild, it grows epiphytically on trees, making it well-suited for mounting on surfaces or planting in hanging baskets where its fronds can cascade beautifully.
  2. Its unique blue-green, wavy fronds with a soft, almost velvety texture give it a distinctive look, making it a striking and popular choice for indoor decor.
  3. Blue Star Fern is a low-maintenance plant that tolerates lower light levels, and indirect light and requires minimal care compared to many other ferns, making it well-suited for beginners.
  4. The blue fern can tolerate mild frost in USDA zones (8-12) and lower temperatures for short periods, making it versatile for indoor and sheltered outdoor use in suitable climates.
  5. Unlike many other ferns, Blue Star Fern has some drought tolerance and can go without frequent watering, though it prefers consistently moist soil.

The Bottom Line 

Overall, the Blue Star Fern (Phlebodium aureum) is a distinctive and popular houseplant that brings a touch of the tropics indoors with its striking blue-green, wavy fronds and epiphytic nature. Known for its adaptability, this fern thrives in moderate, indirect light and can tolerate occasional drought and lower humidity, making it easier to care for than many other ferns. While it prefers consistently moist soil, it is relatively low-maintenance and capable of withstanding mild frost, making it a versatile option for a range of indoor and sheltered outdoor spaces. With its unique appearance, air-purifying benefits, and pet-safe qualities, the Blue Star Fern is an excellent choice for anyone seeking a beautiful, easy-to-care-for addition to their plant collection. 

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Tyler aldrich
Lowell, US
★★★★★ 4
An Invaluable Book
Format: Hardcover, Format: Hardcover
Game Engine Architecture" by Jason Gregory has proven to be a treasure trove of knowledge, especially in the realms of lower-level computer programming and the inner workings of CPUs. The first third of the book, which I have thoroughly enjoyed, dives deep into the intricacies of memory management and concurrent programming. Gregory’s explanations are so lucid and engaging that the complex concepts of memory orders such as relaxed, release, and acquire have become clear to me, showcasing their critical roles in programming. What is particularly remarkable is how the book's first 400 pages serve not just as a guide to game engine architecture, but also stand on their own as an excellent introduction to computer science. It's a testament to the author's skill in distilling complex material into digestible content that even those without a vested interest in game development would find immense value in. However, a caveat I must mention is the book's physical heft. Its size and bulk make it somewhat unwieldy, and I learned this the hard way when it fell from my desk. The impact caused the page binding to tear away from the hard cover, which was disappointing considering the book's cost. Nevertheless, with some craftiness involving thick drawing paper and glue, I managed to repair it. If the author adds any more information to the next edition, it'd probably be best to turn this into a 2-3 volume set to manage the size. Despite this setback, the book remains an invaluable resource. Its depth and clarity are unmatched, making it a worthy addition to any tech enthusiast's library. Just be sure to handle it with care.
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Reviewed in the United States on November 11, 2023
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ghostwriter
Fort Morgan, US
★★★★★ 5
Much thicker than I expected!
Format: Hardcover
This book is massive and could easily be split into two or three volumes, which is great because it covers a very deep topic. It will be a while before I read the book from cover to cover, but the few chapters I've skipped to were able to help me immediately on some problem areas in a game engine that I built last year. I would definitely recommend this to anyone interested in video game development.
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Reviewed in the United States on June 14, 2021
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Jessica Jarrett
Lake Worth, US
★★★★★ 5
Kickstarts your knowledge of game dev
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This book hits on all cylinders, condensing decades of actionable knowledge about game development into a single source. There's a lot more to game dev than what's in this book, but this gives fantastic usable detail on many subjects and gets you oriented with and pointed in the right directions for the few it doesn't.
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Reviewed in the United States on July 1, 2021
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gloine36
Los Angeles, US
★★★★★ 5
One of my favorite books and the inspiration for my World Regional Geography courses that I teach.
Format: Hardcover
Two decades ago when I served in the Missouri National Guard we had an extended drill weekend at Ft. Leonard Wood for a live fire artillery exercise. This was a three day drill and I remember it clearly because it was the same weekend as Princess Diana’s funeral on September 6, 1997. I had been at the local library the day before we rolled out and saw an interesting book that promised to explain why western civilization had been the one to colonize the New World and rise to ascendency over much of the world for a long period of time. That had always been an interesting question for me and one which many people do not know the answer to. I checked out the book and during some downtime I began to read. To say that the book grabbed my attention is an understatement. I started it on Friday and finished it on Saturday. My whole conception of how history had seen the rise of Western Civilization was fundamentally altered and would never be the same. At the time I thought that using Guns, Germs, and Steel as an educational tool would be a great idea. My dream of teaching history had never been realized and in 1997 seemed like it would never happen. However, history is full of strange things and in 2009 I got the chance to return to college and pick up my degrees. I began teaching American History in 2013 and was then asked to teach World Regional Geography for the Spring 2014 semester. They handed me a textbook and said, “Good luck.” As I drove back home I considered how I would teach this course and my mind recalled Jared Diamond and his Pulitzer Prize winning book. To make the story short, I built a course that used the textbook, Diamond’s book, and the National Geographic series based on the book. Obviously I take what Diamond said in Guns, Germs, and Steel seriously. I think Diamond did some outstanding work in doing three decades of research and then writing a book which to me is resonates with readers. For many years the idea that Western Civilization was superior to any other form has been the dominant world view. Diamond rejects that completely by saying Western Civilization had advantages that others did not have due to geography, or literally where it was. When you stop and think about it, why were the Europeans so superior to others for so long? Was it their race, their ideals, or what? Diamond said it was because of where they started that they developed into the world spanning civilization we know. What advantages did the Europeans have over others? They arrived with technology superior to all others, were better organized, and had the lethal gift of germs which in the Americas killed over half the population and was the biggest reason as to why the Europeans took those lands over. When Diamond explored the germ theory he realized that these germs came from contact with domesticated mammals such as horses, cows, pigs, chickens, sheep, and goats. These same mammals were what enabled Europeans to transport materials as well as have a convenient food supply and a power source such as horses pulling plows. This idea works when you look at the Americas and Australia, but not when you look at Africa and Asia. The lethality of germs did not affect the people in those regions like it did the Americas. In fact, some of the diseases in Africa killed the Europeans and prevented them for exploiting Sub-Saharan Africa for centuries. Some of these germs are now known to have come from Asia as well along with domestic animals that came from there. Many of the larger mammals Europe had were also found in Asia. In fact, some of the technology such as gunpowder came from Asia as well. Diamond acknowledged this in his book and sought to explain why Europe was able to expand while Asia did not. This is something I really stress in my class and it is something which the book and National Geographic series does not explore as deeply as it should. Diamond saw a decision made in the 15th century by a Chinese emperor as being the decisive event that altered human history. At that point China was the leading power in the world. It had a great navy, the largest country, gunpowder, advanced technology and far more people thanks to its agricultural practices than any other nation at that time. The decision by emperors in China’s Ming dynasty led to China losing its technological advantage over Europe although no one had any idea that this was happening. These decisions or orders are called Haijin. Diamond did not explore this in any depth other than to point to it and say that China’s inward looking policies which had existed for centuries were the result of its location, its geography. Its singular form of government used Haijin to build up its power at the expense of expanding China’s culture and boundaries. There is a lot here to work with, but Diamond seems to casually bring it up in the book’s epilogue. Instead he focuses heavily on the Americas where his theory of environmental determinism is the strongest. I think he gets the theory right, but in the case of Asia he needed to go deeper. Since Diamond is an ornithologist by education, and his world journey’s focused on New Guinea, I think his point of view was heavily influenced through his contact with hunter-gatherers. His theory is at its weakest in Asia and specifically China. That again reflects his preference for focusing on one type of people versus another. This does not mean his theory is wrong. It just needs expansion and I do not think Diamond will be doing that any time soon. His recent works have dealt with different ideas. Even with this glaring problem, I think this book is outstanding. It does answer the question of why Western Civilization dominated the world for the most part. For my geography class it is a wonderful tool. I focus heavily on how man domesticated two grains from the Middle East, wheat and barley, and built Western Civilization upon them. Coupled with the domestication of large mammals, the forerunners of Western Civilization spread through Europe. Geography played a huge role in why it went west and why there are so many differences between East and West on a cultural level. It also explains why there are such huge differences between North Africa and the lands to the south of the Sahara. The role of geography in shaping mankind is without a doubt the single underlying reason as to why history occurred like it did. This is really hard for students to understand because they seem to have been taught a much different concept prior to taking a geography course. Only by explaining the human-environment interaction do students begin to realize that geography caused man to make decisions which would reverberate for millennia. The people of the Middle East followed the Tigris and Euphrates rivers northwest into Anatolia and out of the desert. Man’s movement west, north, and south with the crops and animals of the Middle East were shaped by geographical barriers. Diamond points out how man overcame these barriers over time. The civilization that was able to do so developed greater technologies than others. He points to both European and Chinese naval developments in this regard. China’s need to continue to build its naval forces was negligible due to a lack of naval enemies while in Europe those enemies were often themselves as nations competed for resources and trade. Since China controlled all of its trade which was mostly internal or land based, its need for a navy was reduced. Europe surged ahead while China languished. In my classes I point to the barriers as we explore the world’s regions. I show how these barriers played such big roles. We play a board game by Avalon Hill that helps to illustrate this as well. Diamond’s book plays a big role in my class and so do his theories. I find it really helps students take the principles and ideas from the first part of the class and begin to apply them to the world regions we study. They are able to make the mental leap to the realization that the people of the world are different for many reasons, the foremost being the place in which they live more than anything else. It helps them to break down and discard the erroneous belief which many of them have regarding their place in the world. Using Diamond’s Guns, Germs, and Steel I am able to use Transformative Learning Theory to overcome the disorientating dilemma they find themselves in at the beginning of class. I could build a new class out of Diamond’s book that encompasses geography, history, and sociology if my school would let me. In fact, I could build two classes out of it. One would focus on why Western Civilization developed like it did and expanded to the Americas while the second one would focus on the development of Eastern Civilization and its failure to expand beyond Asia itself. While courses exist that dive into those ideas, they are built around history more than anything else. Few instructors use environmental determinism in explaining how early mankind developed in the places it did. The ultimate objectives of these courses would be why they developed like they did, not just their history. Diamond has written several other books such as Collapse, The Third Chimpanzee, and The World Until Yesterday. He is Professor of Geography at the University of California, Los Angeles. He has been awarded all kinds of prizes and awards for his research and work in multiple fields. I find it interesting that he began to study environmental history in his fifties which led to this book and many others. This to me is proof that you are not bound by formal rules regarding your education, but rather by using your interests coupled with the research capabilities your education has provided you new careers beckon. This book is a testament to following one’s interests and using one’s intellect. I highly recommend it to all readers. It is one of my favorite books and I have read through it multiple times.
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Reviewed in the United States on September 5, 2015
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Tim F. Martin
Louisville, US
★★★★★ 5
Outstanding work of history, one of the best ever
_Guns, Germs, and Steel_ by Jared Diamond is one of the most informative, epic, well-written, and fascinating "macrohistory" books I have ever read. In this book, Diamond discussed the rise of complex human societies in the last 13,000 years, seeking to answer one fundamental question; why did some civilizations come to dominate others? Why did the Fertile Crescent and China for instance develop advanced societies with, as the title suggests, guns, germs, and steel, while other areas of the world, such as Polynesia, Australia, and the Americas, did not? Or in those cases where some civilizations were beginning to acquire such things, why did they get off to such a late start? Why did the Spanish conquer the Incans instead of vice versa? In a nutshell, he concluded that societies developed differently on different continents not because of racial differences in attitudes or intelligence, but because of differences in continental environments. Advanced technology, centralized political organizations, writing, and professional armies (or simply put the military advantage of simply having large numbers of people), etc. could only emerge in dense, sedentary populations capable of accumulating food surpluses. Unfortunately, domesticable wild plant and animal species needed for agriculture to arise were very unevenly distributed around the world, with the most valuable species concentrated in only nine small areas of the globe (Southwest Asia, China, Mesoamerica, the Andes and the adjacent Amazon basin, the eastern U.S., Africa's Sahel, West Africa, Ethiopia, and New Guinea), all of which became the earliest homelands of agriculture and thus regions that got a head start on developing guns, germs, and steel. Animals were vital to a society as a source of meat, milk products, fertilizer, transportation, leather, for military use, plow traction, and wool and those areas that lacked suitable animals to domesticate suffered accordingly in terms of societal development. The Late Pleistocene extinctions of large mammals in the Americas and Australia deprived humanity in those areas of potentially very valuable domesticable species. Of the big (over 100 pound) herbivores and omnivores, 148 potential candidates for domestication, they are mostly located in Eurasia (72 candidate species, versus 51 in Sub-Saharan Africa, 24 in the Americas, and 1 in Australia). Further, out of those candidates, only 14 were actually domesticated, 13 of them in Eurasia; what he called the "Major Five" - sheep, the goat, cow, pig, and horse, and the "Minor Nine" - the Arabian camel, Bactrian camel, donkey, reindeer, water buffalo, yak, Bali cattle, mithan (wild ancestor the gaur, found primarily in India and Burma), and the one American one, the llama and alpaca (two well-differentiated breeds of the same species). The other 134 potential candidates were eliminated due to problems with diet, growth rate, problems of captive breeding, nasty disposition, tendency to panic, and/or social structure, any one problem enough to preclude domestication even in modern times. Of further interest, Southwest Asia had seven of the wild ancestors naturally occurring, a huge advantage. In the world of plants there were similar disparities in distribution; of the 56 species of grass with the heaviest seeds, at least 10 times heavier than median species, Eurasia's Mediterranean zone had 32 of them, with barley and emmer wheat 3rd and 13th respectively in seed size. In contrast, of the 56 species, only 6 were found in East Asia, 4 in Sub-Saharan Africa, 11 in the Americas, and 2 in Australia. Another set of differences lead to a variation in societal evolution in the case of plant and animal domestications as well as in technological innovations and political institutions, as most societies acquire much more from other societies than they invent themselves (his discussion on the evolution of writing and in particular the alphabet in this regard was fascinating). Diffusion and migration within and between continents played a very important role in the development of a society, and in some continents diffusion and migration was considerably easier, most rapid in Eurasia because of its east-west major axis and its relatively modest ecological and geographical barriers. As crops and animals depended strongly on climate and hence on latitude, huge areas ranging almost from the Atlantic to the Pacific were open to the movement of domesticated plants and animals. Diffusion was slower in Africa and especially in the Americas due to those continents north-south major axes (traveling just a few hundred or a thousand miles north or south can render a society's crops and animals completely unsuitable for use) and much more pronounced geographic and ecological barriers (such as the Sahara Desert in Africa). Similarly, diffusion in the last 6,000 years has been easiest from Eurasia to sub-Saharan Africa, while long completely absent between Eurasia and the Americas (isolated at low latitudes by broad oceans and at high latitudes by geography and by a climate suitable just for hunter-gatherers). The last set of major factors he analyzed related to continental differences in area or total population size. A larger area or population meant more inventors, more competing societies, more innovations that exist to be adopted, and more pressure to adopt and retain those innovations, as those societies that fail to do so tend to be eliminated or absorbed by competing societies. Among the world's landmasses, area and the number of competing societies were greatest for Eurasia, while considerably smaller for Australia for instance. The Americas, despite their rather large total land area, were in effect fragmented by ecology and geography into a series of poorly connected smaller continents. Relating to both population size and the "Eurasians' long intimacy with domestic animals" was the development of germs. Crowd diseases could not sustain themselves in small bands of hunter-gatherers or slash-and-burn farmers, nor perhaps would they develop at all, as only human association with cattle gave us for instance measles (evolved from rinderpest) and smallpox (evolved from cowpox). Obviously I have just scratched the surface in my review. This is an excellent book that ties together findings in history, archaeology, paleontology, epidemiology, and linguistics in an extremely readable and informative format.
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Reviewed in the United States on April 15, 2005

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