A new word for readers and another problem for Darwinists - Biomimetics




I do not want you to choke on evolution, therefore I keep providing more evidence for your perusal that, when viewed as a whole, falsifies Darwinism and makes it plain that Darwinism is not just wrong, it is in fact absolutely preposterous!   It is the most hideous hoax ever perpetrated on modern man, an excuse for megalomaniacs to kill and maim hundreds of millions of people and a terrible drag on the resources of real science.   Every penny spent, every second spent in the vain attempt to prove Darwin's fairy tale hypothesis is time and money taken away from real useful research.   Because God is a brilliant Designer, there are myriad design features in creatures as lowly as insects and bacteria we can learn from and utilize to make life better for people.


Biomimetics

Science studies the structures and behaviors of organisms to learn from them and, when we can mimic to an extent the design features we find in nature we call that "biomimetics."   My friend the Insectman, Karl Priest, could probably write pages and pages on the remarkable design features of insects that science is studying as well as behavioral studies, and in fact has done just that!   Insects often have amazing abilities that outstrip anything man is able to do even with the help of computers.  Yes, mankind is not the smartest of the smart, we are far behind God and are learning a great deal from His designs.  For instance I will present a handful of articles for your perusal and then make a finishing statement that will also introduce the next post...


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Beetle feet stick to their promises

November 3, 2006 

 Beetle feet stick to their promises




















Credit: Max Planck Institute for Metals Research

Microscope image of the biomimetic surface structure of the new adhesive material. The material (green), which was inspired by the soles of insects' feet, sticks to the glass (blue). 


Mushroom-shaped microhairs are the secret of a new adhesive material which scientists at the Max Planck Institute for Metals Research in Stuttgart, Germany, have developed. Inspired by the soles of beetles' feet, and therefore biomimetic, the special surface structure of the material allows it to stick to smooth walls without any adhesives. Potential applications range from reusable adhesive tape to shoe soles for climbing robots and are therefore of considerable relevance to technology.

It has been known for some time how insects, spiders and geckos have such a remarkable talent for walking on walls and ceilings. Extremely thin hairs literally stick their feet to the wall and the larger the animal, the finer the hairs. Geckos, which are heavy compared to a fly, have been using nanotechnology for this purpose for millions of years. According to findings made by scientists at the Max Planck Institute for Metals Research in Stuttgart, the shape of the fibres is also significant; for example, spatula-shaped ends on the hairs provide particularly strong adhesion.

These discoveries aroused great expectations. Is it possible to simply copy the structure of the soles of insects' feet and before long find equivalent biomimetic, i.e. nature-inspired, adhesive materials in everyday use? The researchers at the Max Planck Institute for Metals Research and their colleauges at Gottlieb Binder GmbH in Holzgerlingen, a specialist company for fastener systems, needed plenty of staying power themselves, because the first generations of the surfaces they created with a variety of methods were not effective adhesives.

However, the scientists have now taken a big step forwards in copying the biological adhesive mechanism. They have developed a material with a biomimetic microstructure that exhibits excellent adhesive qualities, basing it on investigations of the foot soles of several types of beetle. Their particularly strong adhesive force is the result of very small, specially shaped hairs reminiscent of tiny mushrooms.

In rigorous tests carried out by the Max Planck researchers with measuring instruments developed especially for the purpose, the artificial adhesive system gave an impressive performance and demonstrated many benefits. It lasts for hundreds of applications, does not leave any visible marks and can be thoroughly cleaned with soap and water. The researchers found that five square centimeters of the material can hold objects weighing up to one hundred grams on walls. However, this limit is much lower for ceilings. Smooth structures, such as glass or polished wood, are good bases but woodchip wallpaper is not very suitable.

"Insects also find it difficult to travel over slightly roughened surfaces - it's a fundamental problem for adhesion mechanisms," explained Project Leader Stanislav Gorb.

To manufacture the material, a mold, similar to a cake tin in baking, is used in which the required surface is embossed as a negative image. The mould is filled with a polymerizing mixture which is allowed to cure and then released from the mould. This sounds easy, but is the result of a "great deal of trial and error." The researchers found the construction of the microstructural "cake tin" particularly challenging and exactly how it works remains a trade secret. Optimizing the polymer mixture also taxed the researchers: if it is too fluid it runs out of the mold; if it is too viscose, it won't even go in.

Potential applications range from protective foil for delicate glasses to reusable adhesive fixtures - say goodbye to fridge magnets, here come the microhairs, which will also stick to your mirror, your cupboard and your windows. For example, the new material will soon be found in industrial production processes in the manufacture of glass components. It has already been shown to perform in higher weight categories: the artificial adhesive fibers on the soles of a 120 gram robot helped it to climb a vertical glass wall (Daltorio et al. 2005).

In their current research, the scientists are trying to improve the adhesion by refining the structures even further. "However, there's still a lot of work to be done by the Working Group. Something that functions smoothly in the laboratory is a long way away from large-scale production," explained Stanislav Gorb.

Citation: S. Gorb, M. Varenberg, A. Peressadko and J. Tuma, Biomimetic mushroom-shaped fibrillar 
adhesive microstructure, Journal of the Royal Society Interface 17 October 2006

Source: Max Planck Institute for Metals Research

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Now concerning the Jewel Beetle:

Beetle "hears" when it is burning


Written by Dr. H. P. Bustami   
Saturday, 16 August 2008
Jewel beetle
Jewel beetle (Melanophila acuminata). photo: AG Prof. Schmitz , University Bonn, Germany
His larvea feed on burnt wood and so mother nature invented for a tiny little beetle a special device to "hear" the fires which can provide a home to his offspring. Even in 80 kilometres distance the insects from the family of the jewel beetles (or metallic wood-boring beetles) can detect the infrared light emitted by fires.  The zoologists from the University of Bonn (Germany) now provided evidence for this fire sensor which is fivefold as sensitive as technical infrared sensors.
 

The heat stimulus which arrives on the beetles surface is directly transformed into a mechanical stimulus for which the beetle has special mechanical receptors which are common in insects (for example in grasshoppers and crickets to detect sound waves being part of the "ears" of these insects).

Eventually these pressure variations caused by the transformed heat stimulus elicit an electrical impulse in sensory neurons. These sensory neurons relay the information to the insect brain.
Infrared sensors of a jewel beetle
Infrared sensor of a jewel beetle (photo: AG Prof. Schmitz)

Such sophisticated infrared sensors are not very common in nature and show again the high developed mechanisms in apparently "primitive" animals like insects. Man is far away from reaching such perfection in his own techniques.

Source: Martin Müller, Maciej Olek, Michael Giersig, and Helmut Schmitz: Micromechanical properties of consecutive layers in specialized insect cuticle: the gula of Pachnoda marginata (Coleoptera, Scarabaeidae) and the infrared sensilla of Melanophila acuminata (Coleoptera, Buprestidae), J. Exp Biol 2008 211: 2576-2583.

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Bees Solve Math Problems Faster Than Computers

Bees can solve complex mathematical problems that would normally keep computers busy for days, according to a new report from UK researchers.1

Through careful observation, University of London scientists have determined that bees routinely solve the "traveling salesman problem," in which a subject must determine the shortest route between multiple destinations in order to conserve energy. But the scientists don't know how the bees do it with a brain the size of a grass seed.

"Bees learn to fly the shortest possible route between flowers even if they discover the flowers in a different order," according to a Royal Holloway, University of London press release.1 Researchers watched as bees encountered "computer controlled artificial flowers" at random, then quickly calculated the shortest route before visiting them all again.

Current computer programs that perform these kinds of calculations operate by totaling the lengths of each possible route and then comparing them to find the shortest one.

There is no way that such tiny brains, using such little energy, could arrive at the right answer so quickly and consistently using the same approach as these computers. So, the researchers speculated that the bees must be using an unknown shortcut algorithm.

Such an algorithm could be a valuable assistance in solving traffic flow problems on roadways and in man-made data networks.

Also crowded into a bee's tiny brain are other shortcut algorithms that enable bees to completely avoid crash landings.2 Research has also discovered advanced capabilities in other insects. For example, ants possess superior traffic flow instincts compared to man-made systems.3 And even slime mold can build more efficient transportation tracks than those devised by Japanese railway engineers.4 All of these algorithms, if they could be discovered or reinvented, have the potential for use in human designs.

Since not even humans with supercomputers could develop these clever algorithms, they must have been purposefully programmed into the insects by an intelligent programmer. Nature by itself could never put together such intricate programs. Even if it could, where would it obtain the power needed to insert them into the exact animals that require them?

Bees, like ants and so many other creatures, clearly look as though they have been expertly designed. Further, it appears that their Designer is vastly more clever than humans, who have trouble understanding, much less duplicating, the abilities of these creatures.
References
  1. Tiny brained bees solve a complex mathematical problem. Royal Holloway, University of London press release, October 25, 2010, reporting on researcher appearing in Lihoreau, M. L. Chittka, and N. E. Raine. 2010. Travel Optimization by Foraging Bumblebees through Readjustments of Traplines after Discovery of New Feeding Locations. The American Naturalist. 176.
  2. Thomas, B. Bee Landing Strategy May Lead to Better Aircraft. ICR News. Posted on icr.org January 12, 2010, accessed October 26, 2010.
  3. Thomas, B. Ant Algorithms Argue Against Evolutionary Origins. ICR News. Posted on icr.org February 17, 2009, accessed October 26, 2010.
  4. Thomas, B. Slime Networks Are Better Organized than Railway Systems. ICR News. Posted on icr.org January 29, 2010, accessed October 26, 2010.
* Mr. Thomas is Science Writer at the Institute for Creation Research.
Article posted on November 2, 2010.

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The Insect Without Children

Jeremiah 51:15
"He hath made the earth by his power, he hath established the world by his wisdom, and hath stretched out the heaven by his understanding."
Did you know that there is a creature that can have a huge number of offspring, yet never have any children? That unusual creature is the aphid. The first aphid of spring is a female, has no wings, and hatches from an egg early in the season. After about ten days, she will give live birth to another fully formed adult female aphid. There have been no males around. Within ten days the new female, too, is ready to give live birth to another fully formed adult female.

By the end of the summer, that first female aphid could have almost six million offspring! Obviously, one plant can't hold that many aphids. So those offspring born with wings fly off to another plant to continue this mysterious process. Once cold weather begins, the female aphids begin giving birth to both male and female aphids, some with wings and some without. The winged males fly back to the original plant, mate, and this time the females produce eggs that can withstand winter so the entire cycle can start again the next year.

The word “understanding” is often used in Scripture and refers to the sense in which God created all things in such a way that they interact and react to countless situations in precisely the way He designed them. The lowly aphid is an astonishing example of this principle!

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Mankind can learn from every creature.  He can learn to apply the design creature-features that help him live and work more productively and he can clearly see that such wonderful and complex and brilliant designs require a Designer.   Particularly since a source of information is needed for such designs!

One of the many fatal flaws of Darwinism is the notion that one ancestral simple organism could have produced the millions of different organism types found today.   The problem is that, for one thing, life depends on life to stay alive.  We live in an ecosystem that frankly involves far more symbiosis that we acknowledge.   If all the bacteria in the world were to die suddenly, all of mankind would also die off almost immediately.   Plant life cannot exist without animal life and vice-versa.

For instance, anyone who is knowledgeable about keeping freshwater tropical fish knows that you cannot simply fill a tank with water, heat it to the proper temperature range, throw in some kind of rocks/pebbles/etc. (I prefer smoothed small river stones myself) and a few plants and then introduce fish!   The fish that you put into that tank will soon die off, at least most of them, unless they are especially hardy and able to withstand drastically unfriendly environments and the fish tank enthusiast does a great deal of partial water changes.   Why?

Because there is a natural cycle of bacteria that live on left-over food and fish excrement and begin to convert the ammonia produced by the fish and fish waste.   Here is an article on the nitrogen cycle of tropical fishtanks that is easy to comprehend:


Nitrogen Cycle

Introduction: First of all What the heck is this and why would you care? Well, this cycle is the mistake of all newbies to the hobby and why most people fail in their attempts at keeping fish! This cycle is the natural way food, fish waste, and fish breathing is broken down in the aquarium. After the tank is setup and you put those little fishes in the tank the cycle starts. Yes, that is right the cycle starts the second the fish are dropped in the tank! The first thing that happens is the fish breathing. Through breathing the fish enter into the tank along with Carbon Dioxide and other gases is Ammonia. This Ammonia is the first step in the cycle. This Ammonia is broken down into Nitrite and later on the Nitrite is broken down into Nitrate. This Nitrate is the final stage in the cycle and is the easiest element to keep in check and the least toxic to the fish in the tank. These elements must be closely monitored and kept in check. Through biological filtration these elements can be kept at minimums. Biological filtration is very important in any aquarium. These filters are, undergravel filters, ceramic pipe and sponges in canister filters, Bio Wheels on back box filters, and others which we will go into more depth in other pages. These filters are where helpful bacteria can attach themselves and grow to remove these different chemicals and make your tank healthy for your fish.

Where most people fail being new to the hobby is not understanding this cycle - Me being one of them - and having your tank become a glass coffin. Food broken down in the tank also adds to the ammonia levels and is one of the leading causes to fish deaths in a new tank by newbies. Over feeding fish is a major no-no! Especially in an unestablished new tank. And the smaller the tank the worse off it is. Small amounts of water are very unforgiving. For this reason when starting a new tank feed your fish very little!!! The fish will survive on very little food with no problems but by over feeding and sending ammonia level off the charts they will surely visit fishy heaven. Well lets get into each part of the cycle.



cycle graph




First cycle (Ammonia): NH3 and NH4. The first part of the cycle starts with ammonia. And also this is the most toxic substance to fish. Ammonia is given off by fish through their gills. Also through fish waste (Poop and pee). And other sources such as a dead fish left in the tank and food decay. A test kit to monitor this is a must. Levels in a new tank will soar and should be monitored daily and always keep an eye on the fish. This first cycle is the toughest and should be toughed out by fish that can tolerate these levels better than expensive low tolerant fish. More on the best fish to use later. If done properly this cycle can be dealt with and no problems will arise. Lucky for us that there are bacteria in the air everywhere that thrives on ammonia. When enough ammonia is in the tank these little hungry bacteria settle in the tank and start eating the ammonia. Now this might not sound like a tasty treat for you or me but these bacteria love the stuff. They will establish a colony in a tank in the gravel, clay pipe, Bio Wheels, ECT. Anything that they can attach themselves to and multiply on. Unfortunately the ammonia levels soar during this time before the bacteria can establish itself and keep levels low.

With just .5 to 1 PPM (Parts per million) fish will show signs of stress clamping of fins and fast breathing through their gills. At higher levels these signs get worse and more noticeable. With levels of 6 to 7 PPM fish deaths could occur. In a new tank these and higher levels will be reached before the ammonia-eating bacteria can establish itself and drop levels. With pH levels above 7 (neutral) or alkaline water this ammonia is even more toxic to the fish. Acid water with ammonia in it is less harmful to fish than is alkaline water. Water changes at this time are a MUST! You must change the water at the very least by at least 25%. More preferably the water should be changed every 2 or 3 days. Get a gravel cleaner and clean the gravel every week at this time. You do not want anything increasing the ammonia level any higher than they have to be. Make sure the tank is well aerated during this first stage as well.

Why your fish are breathing heavy is because the fish are being suffocated by the ammonia. Ammonia interferes with the fishes ability to get oxygen into their bodies. It may sound dumb but the fish drowns from lack of oxygen. High aeration, low feeding amounts; small number of fish, and frequent water changes and cleanings at this time and you and your fish should make it through this phase.



test kit


Second Cycle (Nitrite): NO2. Nitrite is the waste product from the ammonia-eating bacteria. This substance is less toxic than ammonia but in high levels it to can cause death. Nitrite in a fishes blood stream can hamper their red blood cells in their ability to carry oxygen. At high levels this to will cause fish to suffocate and can be seen by a fish swimming frequently to the surface to get air. Although I have found that the first stage is the most difficult for the fish and once this stage has been cleared and the fish survive this stage should be easy.

Nitrite eating bacteria will establish itself to in the gravel and other media as does the ammonia bacteria. Although the same as with the ammonia bacteria. Nitrite levels will soar as it takes time for the nitrite-eating bacteria to establish its colony. You should get a test kit for this as well. For when the nitrite levels hit zero your tank will be fully cycled. Also I noticed that this is the slowest and levels soar the highest during this cycle. All of my tanks stayed off the readable chart levels for more than 2 to 3 weeks. And even then only slowly dropped to zero. Nitrite eating bacteria take longer in their multiplying time. And since the nitrite level are rising quickly from a pretty well established ammonia eating bacteria it takes a while for the NO2 eating bacteria to equal the output from the NH4 bacteria. Be patient at this stage and you be on your way to being able to add new fish.



cycle
Respiratory cycle
photo from Rolf C Hagen Inc.

Third Cycle(Nitrate): NO3 Once you have fully cycled your tank the NO2 bacteria will produce NO3 nitrate as a waste product. This is a pretty stable substance and is pretty much nontoxic. But at high levels this too is toxic to fish. This is where your plants and water changes come in at. How it was told to me was "as to not pollute change the water and dilute". Nitrate is a natural fertilizer Plants will use the nitrate as a food source.

Also if you do not have plants in your tank save the water for houseplants. The fish waste and the nitrate will combine for a nice food source for them as well.   (radar note:  very smart to do this, your inside plants will like this and so will your outside shrubbery and ornamental plants and young trees when you do an occasional one-third water change.  Never let fish water go to waste, ha ha) They will also like the water with no chlorine in it. Nitrate at levels of 80-140 PPM. can also be toxic to fish so be sure that you do water changes at least every two weeks. For those of you that have 10 gallon tanks a once a week no less than 25% water change should be done. At lower water volumes and no plants levels climb quickly. My 10-gallon tanks will be from a 10-20 PPM. To 80-100 PPM. in one week at around 30-40% water changes. I change the water every week. There are bacteria that will eat nitrate and require another filter that contains sponge balls to attach themselves to. I believe they turn the nitrate into nitrogen gas and it leaves the tank but water changes are less expensive and the fresh new water will be good for the fish.


Nitrogen Cycle Graphs (link)

Conclusion: I will share with you my results of dates and times and what tests I performed. I did not have the help of using someone's gravel or other material to speed the process along. If you know of someone or if you know of a pet store that takes good care of their aquariums. Ask them for some of the gravel. At the pet store ask if they will give you a scoop of gravel or if you have to purchase a scoop of it. Remember that the gravel they give you should be place into a piece of cheese clothe and placed in your tank after the fish have been in there for 3 to four days. This will make sure that some ammonia levels have been raised to a point where the bacteria have a food source. You can place the gravel right in the tank if you wish and the gravel matches or does not bother you with your own. This will jump start your tank and shorten the time it takes to cycle the tank.

Remember to be patient and don't run out and Max that tank out without cycling it. The ammonia levels will jump off the charts and you will lose your fish. Watch the over feeding of the fish. A hungry fish will last longer than a fish that cannot get oxygen into its body. Aeration at high levels makes that water extremely oxygen rich. Change the water often. Changing the water often will dilute levels. After the tank is cycled then you can add more fish. Fish should be added at a slow level even after the tank is cycled. Remember that the amount of bacteria in the tank will only rise to a level of waste being produced by that number of fish. Adding a lot of fish will again rise levels of ammonia and nitrite till the bacteria can raise it's levels to match the new load in the tank. Add fish at 4- 6 fish per 1 to 2 weeks as to number 1: raise levels slowly and number 2: not shock the community with large numbers of new fish. Next we will talk about types of fish to use for this cycling of the tank! Stay tuned! Same Bat (I mean BAD) channel!



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Frankly, you do not need to have an undergravel filter at all and, if you want to have a supply of freshwater shrimp in the gravel you must NOT have one.   Good side-of-tank filters with bio-wheels do the trick quite nicely.   I always have an air pump that is producing bubbles via a bubble strip or similar thing in order to help aerate the tank along with a powerful filter with a bio-wheel (or wheels.  We have three going on the 55 gallon tank but just one on the 29 gallon tank) that is rated capable of filtering maybe one size bigger than the tank you have.

Debbie with her hand-designed shirt, necklace and earrings = my better half!


All due credit goes to my wife, who does most of the tank cleaning and filter changing and water changes.  I fix faulty filtering devices or decide to replace them and I set up the initial tank cycles, provided the shrimp and the snails and the original fish for the tanks.  Debbie does most of the maintenance work and also the rock and plant arrangements (although the big Plecos just knock things over and uproot plants at will).  She is also the one who thought up containing the Java Moss within the kind of netting that often comes with apples or potatoes so it doesn't grow indiscriminately and spread out like a 70's Afro hairdo.
I managed to find freshwater shrimp in a local pond and got a colony to grow in one tank and have been keeping a colony going in both tanks.  Debbie shakes them out of the filters and also removes most of them from old/dirty water before feeding plants with it.  A couple of days ago she was literally shaking the shrimp off of the sides of her arms from reaching into the dirty water buckets to fill up aqua globes for the house plants. (the water gets periodic changes before it actually looks "dirty") I also got some small pond snails and cultivated them in the 29 gallon live-breeder tank.   We harvest them periodically to put into the bigger tank, where the Botia and Clown loaches live.  Loaches love to eat snails.   We also have plenty of wood in both tanks for the Plecostomus population to gnaw on.  Finally we do make sure to keep both tanks supplied with Anacharis plants, which help with the natural cycle of waste conversion and provide food for Plecostomus and for snails, etc.  Our shrimp colony thrives in the freshwater tank, where there are three smaller Plecos and lots of Swordtails, Bricks and Platies, all of which can and do interbreed as they are all of the same general kind of fish.

In the big tank we have two 12-year-old Plecos and two 12-year-old African Upside-Down Catfish as well as several Corydoras cats that are between 5-10 years of age, various Barbs and a couple of Angelfish who are around four years old.   The livebreeder tank includes two juvenile Plecos less than four years old and one Zebra Pleco who is nearly 10 years of age but is of a species that does not grow very large so he is small enough to enjoy the small tank and the rock cave we have provided for him (he usually does not appear until late in the evening).  


One of our two big Plecos at age seven.   Both measure over a foot long now...

I started my fish tanks quite easily, with all the right equipment, but instead of the laborious process that some undergo I simply used the "feeder fish" method.   You buy a bunch of cheap feeder fish ( White Clouds or Guppies both work quite well) and start the tank with them.   Most of them will die off while the tank begins to start the nitrogen cycle because the ammonia level of the tank gets high.   I simply kept taking out a third of the water periodically and replaced it with fresh water.   I used White Clouds back 12-odd years ago when I began keeping fish again and of the two dozen Clouds I originally purchased, about half of them lived through the cycling and several of them lasted for five or six years before passing on.  It was simple and logical way to start the tank cycle and Guppies will also work quite well.   Never consider a Goldfish to be a "tropical fish" and never mix them with other fish.   Goldfish are carp and exceedingly "dirty" fish with excrement that is much more toxic than normal tropical fish.   (I did raise a few Koi for profit several years ago more to watch their growth and behavior than to make the money, although I did receive a nice return on my investment).

The bottom line?  You cannot just plop fish into water and expect them to live.   The fish and the plants and the microbes all must work together and depend upon each other for survival.   There has to be a source of light that the plants and algae can use photosynthesis while helping to recycle the waste materials from the fish.  The fish need the water to be aerated and occasionally replenished in part with fresh source water to imitate life in a natural stream or lake or pond.  The plants and bacteria need the fish to provide waste materials they will convert into food.  The fish need the bacteria to recycle their waste and the plants to both help in the process and provide food for some varieties.   As owners we must change filters and do water refreshment, provide fish food and cultivate the shrimp and snails that help keep the big fish healthy.  We also use Java Moss in the live breeder tank to provide shelter for baby fish and small snails and shrimp.

Also, I recommend smoothed gravel stones so that the Corydoras cats or loaches do not rub off their barbels and mouths trying to dig in the gravel for fish food and shrimp.  Too many people buy that cheap sharp-edged gravel and then wonder why their bottom-dwelling fish do not live long.  We have some sand mixed in with the gravel so that at the very bottom there is good rooting for rooted aquatic plants and to provide more "housing" choices for bacteria and shrimp alike. 


A Corydoras resting on smoothed river gravel such as used in our fish tanks

The Earth is quite similar.   Plants could not have survived long without animals and vice-versa.   The symbiotic relationships between species of all kinds is beyond one human to document in a lifetime.  Earth is a fantastic testimony to a Great Designer and also to the sin and fallibility of mankind and the unswerving truth of the Laws of Thermodynamics that show us that life and matter and everything are devolving from an original state rather than evolving into higher forms.   Our genome is degrading, our ecosystem survives but has challenges (the declining bee population, for example) that have absolutely nothing to do with man and his pitifully tiny impact on our massive planet.  Anthropic Global Warming my butt!   The Sun is the engine that drives global warming and cooling and the Earth has design features that react to the activities of the Sun to help balance the temperatures out.   

The Earth was made in six days by God with all kinds of plants and animals in place, ready and willing and able to do their part to keep the biosphere going despite the 2LOT and whatever mankind does to harm or try to help.  We have barely scratched the surface of the lessons we can learn from organisms if we would be wise enough to recognize them for what they are - brilliantly designed biological machines far more efficient and intricate than we have yet been able to completely fathom.