ScienceIQ.com

Don't Make Waves

Fast and slow swimming pools? What are they? A given pool's walls and other components may create and reflect waves making it more difficult (slow) for athletes to swim. A fast pool minimizes wave interference with the athletes making it easier (fast) for the athletes to swim. ...

Continue reading...

SwimmingPools
Geology

A Undersea View of Our Earth's Geography

The ocean bottom is divided into three major areas: the continental shelf, the continental slope, and the deep ocean basin. The continental shelf extends underwater from each of the major land masses ... Continue reading

UnderseaEarthsGeography
Astronomy

Nursery of Giants Captured in New Spitzer Image

Typically, the bigger something is the easier it is to find. Elephants, for example, are not hard to spot. But when it comes to the massive stars making up the stellar nursery called DR21, size does ... Continue reading

GiantsSpitzerImage
Chemistry

Radon, A Rare Element

To the best of our knowledge, the entire universe is constructed from just over a hundred different types of building blocks called atoms. Each has its own characteristic properties, and while there ... Continue reading

RadonARareElement
Geology

The Good, the Bad and the Ozone

Ozone is a big buzz word these days. We mostly hear about the ozone layer, and the importance of protecting it. But if you want to understand what ozone's all about, you need to understand that it can ... Continue reading

TheGoodtheBadandtheOzone

How Do They Grow Those Colossal Pumpkins?

ColossalPumpkinsThose enormous pumpkins that set records every fall are living proof that both genes and environment make living things what they are. Home gardeners out to break the 2002 record for the world's largest pumpkin--held by Charlie Houghton of New Boston, New Hampshire whose colossus tipped the scales at 1,337.6 pounds--must be masters of both genetics and ecology.

Enormous pumpkins start from seed, but not just any seed will do. Most record-seeking pumpkin growers choose a single variety, Howard Dill's patented Atlantic Giant. It was selectively bred not for a single gene, but for a combination of genes that promote the maximal volume, number, and size of individual cells, as well as accelerated metabolism and growth rate. Two cotyledons sprout from an Atlantic Giant seed. These seed leaves were already present in the embryo inside the seed. They nourish the plant before true leaves, which can photosynthesize, appear. Atlantic Giant starts out big and gets bigger by the day. Its cotyledon pair typically measures 6 to 9 inches across. Its true leaves can grow as large as elephant's ears, and its blossoms are as big as dinner plates.

The skill of giant pumpkin growers lies in the care and feeding of the pumpkin vines. Environmental factors that affect size include watering, temperature, and sunlight. Fertilizing is critical, because the plants are voracious consumers of nitrogen, phosphorus, potassium, and other elements in the soil. The organic matter in compost and rotted manure is the best source, some growers say. Pumpkin planters use sulfur or lime to adjust soil pH to the slightly acidic range, between pH 6.5 to 6.8. Record-seeking growers usually build temporary greenhouses to protect their plants from frost, hail, and wind during the early weeks of growth. They pollinate the female flowers by hand to ensure that fruit set early. That gives their garden gargantuans the longest possible growth season before the competitive pumpkin weigh-ins held nationally and internationally each autumn.