I know all the birds of the hills, and all that moves in the field is mine. (Psalms 50:11 ESV)
“Evidence From Biology”
“Every feature and function of a bird’s body testifies to design. From the moment they lay their eggs to their yearly migrations across the globe, birds provide eloquent testimony to their Creator.
While most birds have been given instincts to build strong nests to protect their eggs, the guillemot does not build any nest. Instead, guillemots simply lay their eggs on bare windswept rocks. Their eggs are shaped in such a way, however, that when the wind blows, they spin in place, instead of rolling off the rocks. Who programmed the guillemots to form their eggs exactly the right shape in order to survive in their harsh environment, whereas other sea birds produce ordinary shaped eggs and build nests to protect these eggs?
How do hundreds of species of birds migrate thousands of miles every year at the right time and to the right place? Every fall the American Golden Plover youngsters make an astounding 3,000 mile flight across the Pacific Ocean from Alaska to the island of Hawaii, with no parent to guide them. They fly through the darkness, clouds, and storms, and land at the correct destination. Their bodies are so effecient that they only burn ounces of body weight on this incredible 3,000 mile flight. Who designed their bodies with this extraordinary efficiency, taught these birds to navigate, and gave them the desire to make this journey?”
Above quote from June 11th’s A Closer Look at the Evidence by Richard and Tina Kleiss, with info from Myths and Miracles, p32, CEA Update Newsletter (Summer/95)
Below from Wikipedia
“Common Guillemot eggs are large (around 11% of female weight), and are pointed at one end. There are a few theories to explain their pyriform shape:
- If disturbed, they roll in a circle than fall off the ledge.
- The shape allows efficient heat transfer during incubation.
- As a compromise between large egg size and small cross-section. Large size allows quick development of the chick. Small cross-sectional area allows the adult bird to have a small cross-section and therefore reduce drag when swimming.”