premise
stringlengths 1
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|---|---|---|
These spores are the way that this slime mold reproduces.
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Fungus-like protists such as slime molds reproduce with spores.
| 1entails
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mold and fungus spores (especially in damp areas);
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Fungus-like protists such as slime molds reproduce with spores.
| 0neutral
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Aphids suck sap from leaf veins and worms suck plant fluids from roots.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
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For example, the branches and roots of a tree, the veins of a leaf, and the branched passageways between plant cells all have similar shapes.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
Label diagram of bean Stem (hypocotyl, node, internode, leaf scar) Cotyledon Leaf (petiole, stipule, blade, vein) Other ( simple leaf, compound leaf, oppoite leaf, alternate leaf) Bud, branch Root
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
Least preferred parts of the plants, such as stems and large leaf veins, will not be attacked unless caterpillars are near starvation.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
My students knew many basic ideas about plants from earlier grades, so we tried to spend more time thinking and writing about the specific functions of the leaf veins, flower parts, roots, etc.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
On other plants, leaf veins or stems become discolored.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
On sugar, red, and other maples, large, irregular brownish areas between and along veins occur with symptoms similar to physiological leaf scorch.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
Other leaf veins indistinct.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
Others eat the green parts of the leaves and do not eat the leaf veins, leaving a brown network of veins.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
Provides descriptions with drawings of leaf with petiole, leaf without petiole, split vein leaf, leaf bud, cane and root cuttings.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
Rex Begonia and other fibrous begonias will develop young plants from their primary leaf veins.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
Split Vein Split Vein Detach a leaf from the stock plant.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
The leaf has veins in it that allow for the transport of water, nutrients and sugars through the rest of the plant.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 1entails
|
The specific epithet refers to the plant's pale leaf veins and lower leaf surfaces.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
With rhododendrons, azaleas and other ericaceous plants, a yellow color between the leaf veins is usually a clue to a pH problem.
|
Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
non-photosynthetic cells where CO 2 is incorporated into organic acids in C4 plants) bundle sheath cell (in C3 leaves, these cells surrounding the vein are nonphotosynthetic;
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
vein-delimited the leaf veins from the boundary of the affected areas of a plant.
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Leaves export sugar to roots and other nonphotosynthetic parts of the plant through the veins.
| 0neutral
|
Angiosperms reproduce sexually by wind or and animale carrying the sperm to another flower
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Most fish reproduce with one another sexually.
| 0neutral
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Another one was sexually suggestive.
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Most fish reproduce with one another sexually.
| 0neutral
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But most importantly, cell division enables organisms that are able to sexually reproduce to develop from the one-celled fertilised egg (zygote).
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Most fish reproduce with one another sexually.
| 0neutral
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Emiliania huxleyi produces coccoliths in just one of the stages, and there is even evidence to suggest that in another stage it can reproduce sexually in addition to ordinary cell division.
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Most fish reproduce with one another sexually.
| 0neutral
|
Fish Reproduction and Development Nearly all fish reproduce sexually, and most species have separate sexes.
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Most fish reproduce with one another sexually.
| 1entails
|
Fish almost always reproduce sexually.
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Most fish reproduce with one another sexually.
| 1entails
|
Meiosis is a process that is conserved, in one form or another, across all sexually-reproducing organisms.
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Most fish reproduce with one another sexually.
| 0neutral
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Most annelids reproduce sexually.
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Most fish reproduce with one another sexually.
| 0neutral
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Most are considered sexually mature after one year, but often the size of a fish indicates its maturity rather than time.
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Most fish reproduce with one another sexually.
| 0neutral
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Most arthropods sexually reproduce
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Most fish reproduce with one another sexually.
| 0neutral
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Most echinoderms reproduce sexually.
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Most fish reproduce with one another sexually.
| 0neutral
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Most ferns reproduce sexually, and that involves meiosis and fertilisation .
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Most fish reproduce with one another sexually.
| 0neutral
|
Most fungi can reproduce both sexually and asexually.
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Most fish reproduce with one another sexually.
| 0neutral
|
Most fungi reproduce asexually & sexually
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Most fish reproduce with one another sexually.
| 0neutral
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Most green algae reproduce both sexually and asexually.
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Most fish reproduce with one another sexually.
| 0neutral
|
Most invertebrates reproduce sexually.
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Most fish reproduce with one another sexually.
| 0neutral
|
Most millipedes reproduce sexually via internal fertilization.
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Most fish reproduce with one another sexually.
| 0neutral
|
Most of the scorpions reproduce sexually.
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Most fish reproduce with one another sexually.
| 0neutral
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Most plants reproduce sexually are capable of asexual propagation.
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Most fish reproduce with one another sexually.
| 0neutral
|
Most plants reproduce sexually.
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Most fish reproduce with one another sexually.
| 0neutral
|
Most reptiles reproduce sexually such as this Trachylepismaculilabrisskink
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Most fish reproduce with one another sexually.
| 0neutral
|
Most reptiles reproduce sexually.
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Most fish reproduce with one another sexually.
| 0neutral
|
Most species of scorpions reproduce sexually.
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Most fish reproduce with one another sexually.
| 0neutral
|
Most trematodes are monoecious and alternately reproduce sexually and asexually.
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Most fish reproduce with one another sexually.
| 0neutral
|
Nearly all fish reproduce sexually and have separate sexes.
|
Most fish reproduce with one another sexually.
| 1entails
|
POLLINATION To reproduce sexually, any organism has the problem of bringing the male cells from one individual to the female cell of another of that species.
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Most fish reproduce with one another sexually.
| 0neutral
|
The reason is that sexually reproducing organisms have different sets of genes, so they are in competition with one another reproductively.
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Most fish reproduce with one another sexually.
| 0neutral
|
These flatworms typically occur in teleost fishes as sexually reproducing adults.
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Most fish reproduce with one another sexually.
| 0neutral
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These polyploids can then reproduce sexually with one another, and their offspring will have the same, even number of chromosomes that they do so they will be fertile as well as healthy.
|
Most fish reproduce with one another sexually.
| 0neutral
|
They reproduce sexually in one host and then asexually in a second host.
|
Most fish reproduce with one another sexually.
| 0neutral
|
This means sexually reproducing organisms can exploit a range of resources and compete less against one another.
|
Most fish reproduce with one another sexually.
| 0neutral
|
Using THREE difference organisms, give an example of one organism that reproduces sexually, one that reproduces asexually, and one that reproduces BOTH sexually and asexually.
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Most fish reproduce with one another sexually.
| 0neutral
|
insect species reproduce sexually -- one egg from
|
Most fish reproduce with one another sexually.
| 0neutral
|
A significant amount of water is depleted during the growing season due to transpiration, which is the natural uptake of water into the root system of plants for nourishment.
|
Most growing plant cells expand through water uptake.
| 1entails
|
All plants and animals have water in their cells, so if that water freezes, it expands, destroying the cells and turning tissue to ice.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Changes in plant N uptake during the growing season.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
In addition, reduced water uptake by nitrogen-deficient corn plants growing in the rye-only plots could have influenced the soil water content.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
In water, they are transform into orthophosphate and available for plant uptake.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Iron Uptake Mechanisms in Plant and Bacterial Cells.
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Most growing plant cells expand through water uptake.
| 0neutral
|
Most anions are repelled and remain in the soil solution where they are subject to plant uptake and movement with water.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
One of the ways that plants are killed by freezing temperatures is that the expanding ice crystals in the water inside the plants cells rupture the cell membrane and kill the cells.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Plant cells are kept rigid by the pressure of their cell contents, which are mostly water.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Plants are responsible for uptake of most of the water, and they are also a major contributor to water vapor in the atmosphere.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Plants growing in water logged soil conditions may experience a lack of water uptake because of a diminished rate of available oxygen in the soil.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Radium-226 uptake by plants growing in Alberta phosphogypsum .
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Salts interfere with the uptake and transfer of water through cell walls at heading, a time when the plant has a high water requirement.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Seasonal plant uptake of nitrogen is assessed through elemental analysis of carbon, nitrogen, and hydrogen (CHN) of representative plant tissue and measures of vegetation biomass in each wetland cell throughout the growing season.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Since lawns are not actively growing, water uptake is low.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Since the roots of most ornamental plants and grass are quite shallow, these plants are able to uptake the water stored in only the top 6 to 12 inches of the soil profile.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
The plant cells of roses contain a lot of water, water freezes and expands.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
The resulting water uptake leads to cell death.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
The water plant was continually expanded and upgraded to meet growing demands.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Water Most growing plants contain about 90% water (4).
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Water is available to plants throughout most of the growing season.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
bio-stimulants grow more roots in plants, and makes those roots more efficient in water and nutrient uptake thereby increasing plant health and reducing stress.
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Most growing plant cells expand through water uptake.
| 0neutral
|
d) Is negatively correlated with potassium uptake by growing plants.
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Most growing plant cells expand through water uptake.
| 0neutral
|
e) The uptake of sugars into the plant cell.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
referring to a cell that is firm due to water uptake.
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Most growing plant cells expand through water uptake.
| 0neutral
|
studied the nuclear uptake of DNA in animal and plant cells;
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Most growing plant cells expand through water uptake.
| 0neutral
|
this limits plant regrowth and water uptake.
|
Most growing plant cells expand through water uptake.
| 0neutral
|
Fox Broadcasting produces some of the most sexually lewd shows on television.
|
Most reptiles reproduce sexually.
| 0neutral
|
Most aspen stands are clones of one or several sexually produced individuals.
|
Most reptiles reproduce sexually.
| 0neutral
|
Most reptiles reproduce sexually and have internal fertilization.
|
Most reptiles reproduce sexually.
| 1entails
|
Most reptiles reproduce sexually, though some are capable of asexual reproduction.
|
Most reptiles reproduce sexually.
| 1entails
|
Most reptiles reproduce sexually.
|
Most reptiles reproduce sexually.
| 1entails
|
Reptile Reproduction Most reptiles reproduce sexually and have internal fertilization.
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Most reptiles reproduce sexually.
| 1entails
|
It is assumed that prokaryotic cells arising from a single colony are genetically identical since they reproduce via binary fission (a form of asexual reproduction).
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Prokaryotic organisms reproduce asexually through binary fission.
| 1entails
|
Metridium exilis is a small intertidal species (typically 0.2cm2 pedal disc area) that reproduces asexually by binary fission (longitudinal fission).
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Prokaryotic organisms reproduce asexually through binary fission.
| 0neutral
|
Organisms, both prokaryotes (the archaea and the bacteria), and eukaryotes (such as protists and unicellular fungi), reproduce asexually through binary fission;
|
Prokaryotic organisms reproduce asexually through binary fission.
| 1entails
|
Prokaryotes reproduce asexually by binary fission; they can also exchange genetic material by transformation, transduction, and conjugation.
|
Prokaryotic organisms reproduce asexually through binary fission.
| 1entails
|
Prokaryotes reproduce asexually through a cell division process called binary fission.
|
Prokaryotic organisms reproduce asexually through binary fission.
| 1entails
|
Prokaryotes reproduce through a cell division process called binary fission.
|
Prokaryotic organisms reproduce asexually through binary fission.
| 1entails
|
Prokaryotic cells such as bacterial cells reproduce by binary fission , a process that includes DNA replication, chromosome segregation, and cytokinesis.
|
Prokaryotic organisms reproduce asexually through binary fission.
| 1entails
|
Prokaryotic fission, which is binary fission, is a form of asexual reproduction and cell division used by all prokaryotes, (bacteria and archaebacteria), and some organelles within eukaryotic organisms (e.g., mitochondria).
|
Prokaryotic organisms reproduce asexually through binary fission.
| 1entails
|
All coelenterates reproduce sexually.
|
Reptiles typically reproduce sexually.
| 0neutral
|
Among vertebrates, however, it occurs only in reptiles, and all such unisexual species originate from hybridisation between two sexually reproducing species.
|
Reptiles typically reproduce sexually.
| 0neutral
|
Black truffles reproduce sexually
|
Reptiles typically reproduce sexually.
| 0neutral
|
Cnidaria reproduce sexually or asexually.
|
Reptiles typically reproduce sexually.
| 0neutral
|
Cnidarians reproduce asexually and sexually
|
Reptiles typically reproduce sexually.
| 0neutral
|
Conches are hermaphrodites that reproduce sexually.
|
Reptiles typically reproduce sexually.
| 0neutral
|
Coral reproduces sexually.
|
Reptiles typically reproduce sexually.
| 0neutral
|
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