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They synthesize organic compounds, primarily carbohydrates, from simple substances, carbon dioxide and water, substances that in themselves, do not contain any calories.
Organic substances, including proteins, carbohydrates, and oils, contain carbon.
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They synthesize organic compounds, primarily carbohydrates, from simple substances, carbon dioxide and water, substances that, in themselves, do not contain any calories.
Organic substances, including proteins, carbohydrates, and oils, contain carbon.
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Thus, while the Agency agrees that elemental carbon is persistent, the Agency would not conclude that all organic substances are persistent simply because they contain carbon.
Organic substances, including proteins, carbohydrates, and oils, contain carbon.
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While carbohydrates can be photosynthesized from water and carbon dioxide from the atmosphere, the more complex organic substances, like amino acids and proteins, require additional nutrients usually from the soil.
Organic substances, including proteins, carbohydrates, and oils, contain carbon.
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into organic carbon compounds contain carbon atoms bonded to hydrogen atoms and possibly other elements such as nitrogen or phosphorous; examples include proteins, carbohydrates, nucleic acids and fats, oils and waxes.
Organic substances, including proteins, carbohydrates, and oils, contain carbon.
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organic compound any substance that contains the element carbon, with the exception of carbon dioxide and various carbonates.
Organic substances, including proteins, carbohydrates, and oils, contain carbon.
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A heterotroph is an organism that is unable to manufacture its own food and consumes other organisms.
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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Autotrophs are organisms that can produce their own food by consuming inorganic substances (sunlight, minerals, water), while heterotrophs are incapable of converting inorganic material to energy on their own, and must consume other plants and animals.
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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Consumers are also called heterotrophs because they must consume other organisms in order to get the energy necessary for life.
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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Consumers, or heterotrophs, are those organisms that cannot make their own food, and therefore must eat producers or other consumers to gain energy.
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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Heterotroph- an organism that must feed on organic materials fromed by other organisms in order to obtain energy and small building-block molecules;
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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Heterotrophs are organisms that must feed on others for nourishment and energy (respiration exceeds production).
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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Heterotrophs cannot produce organic compounds from inorganic sources and therefore rely on consuming other organisms in the food chain.
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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Heterotrophs get energy and carbon from living plants or animals ( consumers ) or from dead organic matter ( decomposers ).
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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Heterotrophs must feed on other organisms to obtain energy.
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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Since they get energy consuming other organisms they are called heterotrophs.
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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heterotroph An organism that is incapable of synthesizing its own food and, therefore, must feed upon organic compounds produced by other organisms.
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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heterotrophs -- organisms that must obtain their food by eating other organisms (living or dead).
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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organism that relies on other organisms for its energy and food supply; also called a heterotroph
Organisms incapable of photosynthesis that must therefore obtain energy and carbon from food by consuming other organisms are called heterotrophs.
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Acidophile Any organism that grows best under acidic conditions (low pH).
Organisms that "love" acids are known as acidophiles
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Acidophile Organism that prefers acidic conditions (pH as low as 1 standard unit).
Organisms that "love" acids are known as acidophiles
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Acidophiles in acid mine drainage
Organisms that "love" acids are known as acidophiles
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Acidophiles or acidophilic organisms are those that thrive under highly acidic conditions (usually at pH 2.0 or below).
Organisms that "love" acids are known as acidophiles
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An achaeal iron-oxidizing acidophile important in acid mine drainage.
Organisms that "love" acids are known as acidophiles
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An acidophile is an extremophile organism which thrives in extremely acidic conditions.
Organisms that "love" acids are known as acidophiles
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Need for Gold mining pollution problems and cures I am an undergraduate at Staffordshire University looking for info on acidophiles and AMD Treatment Using RO I am a graduate student starting my research on organic covers for acid mine tailings.
Organisms that "love" acids are known as acidophiles
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Such acid loving microbes are called acidophiles .
Organisms that "love" acids are known as acidophiles
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There are acidophiles, which thrive in acid conditions;
Organisms that "love" acids are known as acidophiles
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acidophile- Organism that grows best under acid conditions (down to a pH of 1).
Organisms that "love" acids are known as acidophiles
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these are the acidophiles in acid mine drainage.
Organisms that "love" acids are known as acidophiles
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A consumer is an organism which eats other organisms under the the consumer in the food chain.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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All other organisms in the food chain are CONSUMERS
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Consumer organisms depend upon and eat other organisms for their food.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Consumers Consumers are organisms that depend on other organisms for food.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Consumers Organisms requiring the consumption of other organisms for food.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Consumers are organisms of an ecological food chain that receive energy by consuming other organisms.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Consumers are organisms that depend on other organisms for food.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Consumers are organisms that depend on producers or other consumers to get their food, energy, and nutrition.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Consumers are organisms that have to eat other organisms for food.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Consumers are organisms that must eat or consume other organisms for food.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Consumers are organisms that obtain their food by consuming other organisms.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Consumers are those organisms that consume, or eat, other organisms in order to get their food.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Explain the role of a consumer in a food chain.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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SPI 0607.2.1  Classify organisms as producers, consumers, scavengers, or decomposers according to their role in a food chain or food web.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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Secondary Consumers These are organisms in the food chain which feed on primary consumers .
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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The difference between a producer and a consumer is that a producer makes their own food, and a consumer depends on other organisms for their food.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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The other organisms in a food chain are consumers, because they all get their energy and biomass by consuming (eating) other organisms.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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This chapter reviews producers, consumers, food chains, population, and habitat, as well as showing how organisms depend on each other.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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consumer Noun organism on the food chain that depends on autotrophs (producers) or other consumers for food, nutrition, and energy.
Organisms that depend on other organisms for food play the role of a consumer in the food chain.
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1992 Direct Use of the Sun's Energy.
Over 90% of the energy we use comes originally from the sun.
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After the decomposers are through, all of the originally captured sun energy has been used-and lost.
Over 90% of the energy we use comes originally from the sun.
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If, however, I had come up with the idea of using the sun's energy to heat buildings, that would be an achievable innovation.
Over 90% of the energy we use comes originally from the sun.
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In the following chapters you will learn that the energy used by all organisms comes from the sun (which is a portion of the energy released by the Big Bang when the universe originated about 20 billion years ago).
Over 90% of the energy we use comes originally from the sun.
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Just about all the energy we use comes from the sun and is collected somehow and then we use it.
Over 90% of the energy we use comes originally from the sun.
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Origin of the Sun's energy Several hypotheses can be made as to the origin of the Sun's energy.
Over 90% of the energy we use comes originally from the sun.
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So the energy comes from the Sun, is stored (and used) by plants through photosynthesis, then by organisms which eat the plants and so on.
Over 90% of the energy we use comes originally from the sun.
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Solar Energy Activities More and more, people are coming to realize that they can use the power of the sun to do useful work for them.
Over 90% of the energy we use comes originally from the sun.
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Sun energy is not used in Estonia.
Over 90% of the energy we use comes originally from the sun.
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The Sun is used as the origin of the coordinates.
Over 90% of the energy we use comes originally from the sun.
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The code was originally developed using Matlab, then converted to Fortran 90, on a workstation (Sun UltraSPARC 200).
Over 90% of the energy we use comes originally from the sun.
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The sun uses nuclear energy.
Over 90% of the energy we use comes originally from the sun.
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The sun's energy comes to us as light.
Over 90% of the energy we use comes originally from the sun.
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using the sun and the wind as energy sources;
Over 90% of the energy we use comes originally from the sun.
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using the sun and the wind as energy usage;
Over 90% of the energy we use comes originally from the sun.
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A new demand has come from Aquatic Nuisance Species (ANS) threats.
Overharvesting is a serious threat particularly to aquatic species.
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AQUATICS AQUATIC HABITAT AND SPECIES 1.
Overharvesting is a serious threat particularly to aquatic species.
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Aquatic species rarely display any particular specializations for jumping.
Overharvesting is a serious threat particularly to aquatic species.
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Aquatic species which inhabit murky waters have particularly bad eyesight.
Overharvesting is a serious threat particularly to aquatic species.
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Concerns for overharvest of this species helped lead to the creation of the park.
Overharvesting is a serious threat particularly to aquatic species.
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However, this species is still under serious threat, particularly from poaching, and increased protection is still needed to ensure its survival.
Overharvesting is a serious threat particularly to aquatic species.
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Identify the most serious threats to the survival of species of concern.
Overharvesting is a serious threat particularly to aquatic species.
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In particular the focus group will examine the response time of aquatic species to changes in flow.
Overharvesting is a serious threat particularly to aquatic species.
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Introduced species of aquatic organisms also pose a threat.
Overharvesting is a serious threat particularly to aquatic species.
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Invasive species represent a serious threat to natural areas.
Overharvesting is a serious threat particularly to aquatic species.
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No particular threats to this species have been identified.
Overharvesting is a serious threat particularly to aquatic species.
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No particular threats to this species have been recognised;
Overharvesting is a serious threat particularly to aquatic species.
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Overharvesting is a serious threat to many species, especially aquatic ones.
Overharvesting is a serious threat particularly to aquatic species.
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Pollution, particularly nitrogen deposition from fertilizer use, also presents a serious threat to a variety of terrestrial species ( CBD 2010b ).
Overharvesting is a serious threat particularly to aquatic species.
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Raise public awareness of the threats that invading species pose to aquatic ecosystems;
Overharvesting is a serious threat particularly to aquatic species.
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Several species are considered to be serious threats to native vegetation.
Overharvesting is a serious threat particularly to aquatic species.
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Some species have been overharvested;
Overharvesting is a serious threat particularly to aquatic species.
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The incidental introduction of aquatic nuisance species including biological and terrestrial exotics is considered by some as the most serious threat of environmental pollution to our country today.
Overharvesting is a serious threat particularly to aquatic species.
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The species is under no particular threat.
Overharvesting is a serious threat particularly to aquatic species.
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The study argued that titanium mining would eliminate aquatic bio-diversity parts, and pose a serious threat to ecosystems, communities, species and genetic materials.
Overharvesting is a serious threat particularly to aquatic species.
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There are few threats to the nesting beach for this species in Mexico, but the existing threats are potentially serious.
Overharvesting is a serious threat particularly to aquatic species.
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This does not seem to pose a serious threat to this species at this time.
Overharvesting is a serious threat particularly to aquatic species.
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This species feeds primarily on aquatic insects, particularly on caddisflies, mayflies, chironomids, and beetles.
Overharvesting is a serious threat particularly to aquatic species.
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This species is a serious threat to the Hawaiian flora.
Overharvesting is a serious threat particularly to aquatic species.
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This species is highly specialised, making it particularly vulnerable to threats.
Overharvesting is a serious threat particularly to aquatic species.
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Threats to the species
Overharvesting is a serious threat particularly to aquatic species.
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Water levels in rivers and lakes are low, and threats to endangered aquatic species like salmon and steelhead are serious.
Overharvesting is a serious threat particularly to aquatic species.
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associated aquatic species and aquatic systems.
Overharvesting is a serious threat particularly to aquatic species.
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habitat loss, invasive species, pollution, and overharvesting
Overharvesting is a serious threat particularly to aquatic species.
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or constitute a serious threat to the continued existence, in the wild, of a particular species of animal or of a particular species of plant;
Overharvesting is a serious threat particularly to aquatic species.
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A woman's egg leaves the ovary ( ovulation ) approximately two weeks before the beginning of the next menstrual cycle (NOT two weeks after the current one).
Ovulation takes place in the ovary and is part of the menstrual cycle.
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At the beginning of each menstrual cycle, the pituitary gland secretes a hormone, FSH (follicle stimulating hormone), that acts upon the ovaries to prepare for ovulation.
Ovulation takes place in the ovary and is part of the menstrual cycle.
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Every month, during the menstrual cycle , an egg is released from one ovary in a process called ovulation .
Ovulation takes place in the ovary and is part of the menstrual cycle.
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For example, the ovary is an organ that produces ovules.
Ovulation takes place in the ovary and is part of the menstrual cycle.
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Ovary That part of the pistil that contains the ovules.
Ovulation takes place in the ovary and is part of the menstrual cycle.
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Ovulation (Cycle Day 13-14) Denoted by the release of an egg from the ovary, this is the time during the menstrual cycle during which conception is most likely .
Ovulation takes place in the ovary and is part of the menstrual cycle.
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