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We are especially interested in ecological interactions between plants and other organisms, including herbivores, pathogens, and mutualists.
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Plants face two types of enemies: herbivores and pathogens.
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neutral
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15% Soluble carbohydrates (Sucrose, stachyose, raffinose, others;
|
Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
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neutral
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From the measurements of transcript levels and carbohydrate contents in mature leaf blades, we propose that the expression of the gene for the maize sucrose transporter is positively regulated by the amounts of soluble sugars such as sucrose and glucose in source leaves of maize.
|
Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
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neutral
|
Hence, it lacks the properties that sucrose and other carbohydrates possess.
|
Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
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neutral
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Hence, it lack of properties that sucrose and other carbohydrates have.
|
Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
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neutral
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Here you can see the important role in plants of sucrose, the transport form of photosynthate .
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Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
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neutral
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Other Carbohydrate Issues Sucrose (Table Sugar).
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Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
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neutral
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Produced by the fermentation of lactose when milk sours or from sucrose and some other carbohydrates by the action of certain micro-organisms.
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Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
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neutral
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Sucrose is formed by plants and cyanobacteria but not by other organisms.
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Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
|
neutral
|
Sucrose is the major form of carbohydrate transported from the site of photosynthesis in the leaf to other parts of the plant.
|
Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
|
entails
|
Sucrose is unusual in that it does not easily form a supersaturated solution at higher concentrations, as do most other carbohydrates.
|
Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
|
neutral
|
Sucrose-cleaving Enzymes and Carbohydrate Pools in Lilium longiflorum Floral Organs.
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Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
|
neutral
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The TNC increment in the roots during spring was largely due to a marked increase in sucrose concentration, the main transport carbohydrate fraction (Kozlowski and Keller 1966 ).
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Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
|
neutral
|
The carbohydrates found in Gatorade are in the form of two sugars sucrose and glucose-fructose.
|
Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
|
neutral
|
The rapid decrease in sucrose and TNC concentrations in roots in early summer, while carbohydrate concentrations in lignotubers and stems remained relatively constant, suggests that sugars were being consumed by the roots, which are the main cabohydrate sink of this plant.
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Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
|
neutral
|
This CO2 then enters the Calvin cycle in a chloroplast of the bundle sheath cell and produces G3P and subsequently sucrose, starch and other carbohydrates that enter the cells energy transport system.
|
Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
|
neutral
|
When foods are consumed, plaque bacteria metabolize sucrose and other fermentable dietary carbohydrates to organic acids which lower plaque pH.
|
Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
|
neutral
|
they transport sucrose and other organic nutrients.
|
Plants generally transport carbohydrates from leaves to roots and other nonphotosynthetic organs in the form of sucrose.
|
neutral
|
Anthropogenic depletion in dissolved oxygen can be caused by the presence of organic materials, such as sewage, discharge from food processing plants, and decaying plants and animals.
|
Plants not only contribute food but oxygen for organisms.
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neutral
|
Coelomic fluid bathes organs & distributes food & oxygen
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Plants not only contribute food but oxygen for organisms.
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neutral
|
In the absence of oxygen, the only organisms able to grow are those able to steal oxygen ( reduction ) from the food by forming reduced organic compounds which often have foul odors.
|
Plants not only contribute food but oxygen for organisms.
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neutral
|
In the process, plants release oxygen and provide food and materials.
|
Plants not only contribute food but oxygen for organisms.
|
entails
|
Most immediate environmental effects are physical effects, such as coating animals and plants with oil, suffocating aquatic organisms from oxygen depletion, and destroying food supply and habitats.
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Plants not only contribute food but oxygen for organisms.
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neutral
|
Need food from other organisms , water and oxygen
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Plants not only contribute food but oxygen for organisms.
|
neutral
|
ORGANIC WASTES Domestic sewage treatment plants, food processing plants, paper mill plants, and leather tanning factories release organic wastes that bacterial populations increase and use up the oxygen in the water.
|
Plants not only contribute food but oxygen for organisms.
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neutral
|
Only dissolved oxygen contributes to the tension (or partial pressure).
|
Plants not only contribute food but oxygen for organisms.
|
neutral
|
Organisms need oxygen to release the energy from their food.
|
Plants not only contribute food but oxygen for organisms.
|
neutral
|
Oxygen Plus Plant Food (OPTIONAL) 1 teaspoon
|
Plants not only contribute food but oxygen for organisms.
|
neutral
|
Oxygen in water is used by plants (at night) and organisms in the stream.
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Plants not only contribute food but oxygen for organisms.
|
neutral
|
Plants provide us with oxygen and food.
|
Plants not only contribute food but oxygen for organisms.
|
entails
|
Prochlorophytes appear to be the only natural oxygen producing organisms that do not contain pure chlorophyll a , as do 'normal' algae and land plants.
|
Plants not only contribute food but oxygen for organisms.
|
neutral
|
Reducing organic pollution from sewage treatment plants has increased dissolved oxygen in many of the Region's surface waters, a factor that has contributed to healthier ecosystems.
|
Plants not only contribute food but oxygen for organisms.
|
neutral
|
The main factor contributing to changes in dissolved oxygen levels is the build-up of organic wastes, or wastes from once-living plants and animals, and from the feces of animals.
|
Plants not only contribute food but oxygen for organisms.
|
neutral
|
The only disadvantage is that oxygen in the fuel cannot contribute energy;
|
Plants not only contribute food but oxygen for organisms.
|
neutral
|
The oxygen contributes only a minor fraction to the intensities.
|
Plants not only contribute food but oxygen for organisms.
|
neutral
|
We are dependent on plants not only for oxygen, food and fuel, but also for many other benefits including medicine.
|
Plants not only contribute food but oxygen for organisms.
|
entails
|
there were food and oxygen, both provided by plants.
|
Plants not only contribute food but oxygen for organisms.
|
entails
|
Gold, silver and platinum are called the noble metals, a name that in chemical terminology refers to their outstanding resistance to the corrosion and oxidation that cause base metals such as iron, copper and tin to weaken and disintegrate.
|
Platinum and gold are useful materials for constructing circuits because of their ability to resist oxidation.
|
entails
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In electronics, gold is widely used to coat electrical contacts and is valued for its resistance to oxidation and it's long-term stability.
|
Platinum and gold are useful materials for constructing circuits because of their ability to resist oxidation.
|
entails
|
Researched the use of oxidants other than platinum in the platinum activated oxidation of hydrocarbons.
|
Platinum and gold are useful materials for constructing circuits because of their ability to resist oxidation.
|
neutral
|
They include tests of the abilities of materials to resist oxidation, corrosion, and rust.
|
Platinum and gold are useful materials for constructing circuits because of their ability to resist oxidation.
|
neutral
|
This gray material resists oxidation by air and is nonvolatile.
|
Platinum and gold are useful materials for constructing circuits because of their ability to resist oxidation.
|
neutral
|
We construct each Acme Klein Bottle from materials which resist both oxidation and reduction.
|
Platinum and gold are useful materials for constructing circuits because of their ability to resist oxidation.
|
neutral
|
A portal vessel is a blood vessel that links two capillary beds, in this case, the capillary bed of the median eminence with the capillary bed in the adenophypophysis.
|
Portal veins carry blood between pairs of capillary beds.
|
entails
|
AVMs lack a capillary bed and arterial blood is moved (shunted) directly from the arteries into the veins.
|
Portal veins carry blood between pairs of capillary beds.
|
neutral
|
Capillaries Back to top Tiny vessels that carry blood from the arteries to the tissues and from the tissues to the veins.
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Portal veins carry blood between pairs of capillary beds.
|
neutral
|
Embryonic blood is carried to the villi by the branches of the umbilical arteries, and after circulating through the capillaries of the villi, is returned to the embryo by the umbilical veins.
|
Portal veins carry blood between pairs of capillary beds.
|
neutral
|
G roup of veins that carry blood from the capillaries of the stomach, spleen, intestine, and pancreas to the sinusoids of the liver Hepatic Portal Vein --
|
Portal veins carry blood between pairs of capillary beds.
|
neutral
|
In the circulatory system of animals, a portal venous system occurs when a capillary bed pools into another capillary bed through veins, without first going through the heart.
|
Portal veins carry blood between pairs of capillary beds.
|
entails
|
The second capillary bed in the liver is called the hepatic portal vein hepatic artery sinusoids microvilli 8.
|
Portal veins carry blood between pairs of capillary beds.
|
neutral
|
This means that unlike many other kinds of animals, they have no arteries, veins or capillaries to carry blood.
|
Portal veins carry blood between pairs of capillary beds.
|
neutral
|
Calcium and Magnesium Calcium and magnesium are macronutrient elements in biological tissues.
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
Macronutrients include Nitrogen (N), Potassium(K), and Phosphorus (P), as well as Calcium (Ca), Magnesium (Mg), and Sulfur (S).
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
Macronutrients include nitrogen, phosphorus, potassium, calcium, magnesium, and sulfur.
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
Macronutrients that constitute 0.2 to 1 % of dry organic weight include sulfur , chlorine , potassium , sodium , calcium , magnesium , iron , and copper .
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
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Macronutrients, such as sodium, chloride, potassium, calcium, phosphorus and magnesium, are needed by the body in relatively large quantities.
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
Minerals Some minerals--sodium, chloride, potassium, calcium, phosphorus, and magnesium--are considered macronutrients because they're needed by the body in relatively large quantities;
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
Nitrogen, phosphorous, potassium, calcium, magnesium and sulfur are called macronutrients, and are the basic nutrients required by plants in relatively large amounts.
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
The Macronutrients are nitrogen, phosphorus, potassium, calcium, magnesium, and sulfur.
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
The macronutrients , so called because plants require them in large amounts, include hydrogen, carbon, oxygen, nitrogen, phosphorus, potassium, calcium, magnesium, and sulfur.
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
The macronutrients obtained from the soil include nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), and sulphur (S).
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
The major nutrients, or macronutrients, required for plant growth are nitrogen (N), phosphorus (P), potassium (K), calcium, magnesium, and sulfur.
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
The major or macronutrients include carbon, hydrogen, oxygen, nitrogen, phosphorus, potassium, magnesium, sulfur and calcium.
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
The nine macronutrients (nitrogen, phosphorus, potassium, calcium, magnesium, sulfur, carbon, hydrogen, and oxygen) are required in relatively large amounts.
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
The six macronutrients, nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), and sulfur (S) are required by plants in large amounts.
|
Potassium, calcium, and magnesium are considered macronutrients.
|
entails
|
At a substation, this medium-voltage electrical current is increased in voltage with a transformer for connection to the high voltage electric power transmission system.
|
Power in electricity is the voltage multiplied by the current.
|
neutral
|
I suppose we could measure both the voltage and current, multiply them together and derive power.
|
Power in electricity is the voltage multiplied by the current.
|
entails
|
Laws of physics tell us that Power can be obtained by multiplying Current and Voltage.
|
Power in electricity is the voltage multiplied by the current.
|
entails
|
Multiplying the voltage by the current yields the total electrical power generated.
|
Power in electricity is the voltage multiplied by the current.
|
entails
|
So clearly, the power dissipated by an electrical component is determined by multiplying the current through the component by the voltage across the component. The SI unit for power is the watt (W).
|
Power in electricity is the voltage multiplied by the current.
|
entails
|
The power of a direct current is its voltage multiplied by it's current.
|
Power in electricity is the voltage multiplied by the current.
|
entails
|
electric interference currents and interference voltages in power lines connected to the device.
|
Power in electricity is the voltage multiplied by the current.
|
neutral
|
they can also induce voltages and currents in electric power grids on Earth.
|
Power in electricity is the voltage multiplied by the current.
|
neutral
|
Almost 93 per cent of today's plants have vascular tissue.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
And this has made plants that have vascular tissue very successful.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
As the name of this group indicates, plants in this lineage do not have vascular tissue (or if present, it is very reduced).
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Chapter 5 Plant tissues Describe the composition and function of plant vascular tissues.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Having vascular tissues allows most plants to...
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Mechanical tissues and vascular tissues of these plants are well developed.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Non-vascular plants do not have a wide variety of specialized tissue types.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Plants have three tissue systems;
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Seed-bearing plants have true leaves, stems, roots, and vascular tissue.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
The cells of a plant are organized into dermal, vascular, and ground tissue systems III.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
The distribution of Vascular Tissues ( Stele ) in the stems of plants varies from the simple to the complex.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
The vascular tissue in plants is arranged in long, discrete strands called vascular bundles.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Their main argument is that not all stems of Cooksonia-type plants have vascular tissue.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Then to help transport that water, up to the top of the plant, they'll have vascular tissue.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
This plant had vascular tissue and a new type of reproductive structure called the seed.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Together, xylem and phloem tissues form the vascular system of plants.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Unlike terrestrial plants, alga do not have true vascular tissues.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Vascular plants are those with vascular tissue.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
entails
|
Vascular tissues make up the water- and food-conducting system of a plant.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
When a plant's vascular tissue develops as a central cylinder, it is said to have a siphonostele.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
When a plant's vascular tissue develops in discrete bundles, it is said to have a eustele.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Within the roots and stem of the plant are vascular tissues called xylem.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Wood is an example of a plant conductive tissue, vascular tissue.
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
vascular tissue in plants
|
Present-day plants that have a complex vascular tissue system are called vasuluar plants.
|
neutral
|
Buffers By minimizing wide fluctuations in pH, buffers help organisms maintain the pH of body fluids within the narrow range necessary for life (usually pH 6-8).
|
Processing of filtrate in the proximal tubule helps maintain the ph level in body fluid.
|
neutral
|
Helps maintain a constant pH in body fluids by the controlled secretion of hydrogen ions.
|
Processing of filtrate in the proximal tubule helps maintain the ph level in body fluid.
|
neutral
|
It is also importantly involved in the regulation of fluid levels within the cell and in maintaining the correct pH balance within the body.
|
Processing of filtrate in the proximal tubule helps maintain the ph level in body fluid.
|
neutral
|
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