Biology photo scavenger hunt
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Transcript of Biology photo scavenger hunt
Biology Photo Scavenger
HuntCole Perry
Radial Symmetry- The Lily pads pictured
here can be drawn with radial symmetry all
around
3rd level Carnivore- The hawk
pictured here eats only small mice
and rodents, making it a 3rd level
consumer
Nonpolar covalent bond- the water pictured
here holds a nonpolar covalent bond
Prokaryotes- Many forms of prokaryotes
can be found in abundance here in this
lake water
Lichens- here n this tree bark we can
see blue-ish white splotches, these
are tree lichens
Exoskeleton- Here is a black widow spider,
the black shiny tinge comes from its’
exoskeleton
Species- These turtles seen here both
come from the same species of snapping
turtle “Chelydra serpentina
Population- although few in number, these
rascals are both of the same species, making
them technically a population
Detritovore- This fungus shown
here feeds on dead material of
trees, making it a detritovore
Frond- The “leaves” of this fern shown here
are called fronds
Cambium- The space between the
bark and the rings of the tree are
called the “Cambium”
Xylem- Inside the bark of these trees are a
substance that pumps nutrients up the
tree, called Xylem, they make up the light part
inside the tree logs
Phloem- Phloem is the material that brings
water and substances from the leaves
through the plant, see also in the rings
behind the tree bark
Biome- Pictured here is the deciduous forest
biome, consisting of various deciduous
trees, very shaded
Autotroph- Seen here is a plant, which
is under the categorization of an
autotroph, which produces its own
food
Flower ovary- pictures here is a bud for a
flower, inside this flowering plant with its bud, we can
find the ovary for the new seeds
Hermaphrodite- Pictured here is a
typical tree, producer of its own food
and this particular type being a self
fertilizer, or a hermaphrodite
2nd Level Consumer- This animal we see, a
human being, is a consumer of many plants,
making it a 2nd level consumer
Epithelial tissue- here we see the
skin of a human being, acting as a
protective barrier for the internal
organs
Bilateral symmetry- the leaf shown here is a
good example of symmetry, it can be traced
along the middle and folded on itself, making
the same shape
Analogous Structures- The
human hand and cat paw appear
to be similar in embryonic
origin, while now they are two
different structures in adult
stage
Mating behavior- the flowers shown here
are colorful in the event that a pollinator
will become attracted to them and spread
pollen, this is an adapted mating behavior
of plants
Adaptation of an animal- The cat shown here has
adapted sharp claws to aid in attacking prey,
although they have dulled in many domestic
housecats
Hydrogen Bonding- The water
molecules seen here on this
human hand are subject to
hydrogen bonds that hold them
together
Sporophyte- The moss seen here is an example
of a sporophyte, or a plant with spores rather
than seeds
Introduced species- The plant here
is a eucalyptus tree, native to
Australia rather than North America
Seed dispersal- the seeds shown here
have been subject to seed
dispersal, being distributed all over
the gorund
Genetic variation in population- Shown here are
two fish of the same population, but due to
genetic variation, are different colors
Food Web- This is a human being eating tortilla
chips, an example of the food web, being an
omnivore, a human can eat plants and animals
such as corn in the chips
Niche- This shown here is a community
specifically created by humans and for
humans, this is their created niche
Parenchyma cells- The cell walls of this
plant stem contain a stiff agent known as
parenchyma
Genus- Although not specifically the same
breed of dog, these animals come from the
canine genus
Tropism- Although difficult to here, these
plants are leaning to the sun out of a
window. This is an example of Solar
tropism
Dominant Phenotype- Shown here is
the blonde hair color phenotype, since
it has been expressed in this human, it
can be referred to as the dominant
Ethylene- Pictured here is a
ripening raspberry, it releases
ethylene as a byproduct of
cellular respiration and its
ripening
Pollen- Located in the center of this
plant, the yellowish substance, is pollen
Protein- The muscles embedded
underneath the skin are a complex set
of protein chains, assisting animals such
as humans in movement
Connective tissue- Inside the knuckles
of the finger there are many tendons
and ligaments that keep the fingers In
tact
Vestigial organs- Shown below
on the side of Mr. Davenport’s
head are ears. The ear lobes
are an example of a vestigial
organ beause they do not
foster the same movement
capabilities of ears from other
organisms
Unicellular organisms- The algae shown
in this fish tank coexist with many
other smaller unicellular organisms
Gymnosperm leaves- These pine
needles are some of the most
common found gymnosperm
leaves in our area
Herbivore- Seen here, this squirrel is a
consumer of only nuts and barks, deeming
it a herbivore
Amniotic egg- This is an example of an
amniotic egg because it encloses the
chicken embryo
Calvin Cycle- The light from the sun
along with oxygen and other light
reactions creates valuable ATP for these
domestic plants such as juniper
Gymnosperm cone- This pine cone
contains small reproductive seeds
allowing new gymnosperms to grow
after it falls from the tree
Carbohydrates- These carrots, growing
rooted into the ground, contain a high
amount of complex starches, or
carbohydrates
C3 plants- This pineapple is among one of
the many C3 producing plants, C3
referring to the carbon produced in the
Calvin Cycle
Rhizome- The grass here is rooted
underground by a runner, or a rhizome
Adaptation of a plant- This vine
has adapted the capability to
climb trees and walls
Krebs cycle- many common cacti are important
to the krebs cycle occurring in the desert,
producing valuable oxygen and releasing it into
the atmosphere