Friday, 15 June 2018
Thursday, 14 June 2018
REVISION 1º ESO
UNIT 0
1.
Copy and complete…
The scientific method / observation /
questions/ hypothesis / answer the questions / experiment / laboratory /
experiment/ Petri disch / bunsern burner / beakers / flasks/ test tubes / Results / Conclusions / Publication.
2.
Copy and complete…The scientific method •
Scientists need to be strict about the methods they use and the way they
communicate their results, so that other scientists can recreate their
experiments.
UNIT 1
Summary 1.
The Universe consists
of matter, dust and energy grouped into stars forming galactic clusters. The
Universe includes a galaxy called the Milky Way, which contains the Solar
System, whose centre is the Sun. Consisting of planets: outer Jupiter, Saturn,
Uranus, Neptune, inner Mercury, Venus, Earth and Mars. Dwarf planets are:
Ceres, Pluto, Haumea, Makemake and Eris. Satellites, including the one
belonging to the Earth, the moon, comets, asteroids and meteorites.
2.
Copy and complete the sentences.
The Universe: The Universe was formed 13.8
billion years ago after a huge explosion: the Big Bang. It is still expanding.
Matter, space and time were created. The known matter in the Universe is formed
of nebulae, stars, black holes and planetary bodies. According to scientists,
this is just 5 % of the total matter in the Universe. The rest is dark matter
and we do not know what it is like as we cannot see it. Stars and galaxies:
Stars shine because nuclear reactions take place in them. This produces lots of
energy. Stars are grouped into galaxies. In the Universe there are hundreds of
billions of galaxies. Each one contains billions of stars. Stars form in a
nebula. They are made of gases and cosmic dust. The Solar System: The Solar
System is located in the Milky Way galaxy and is made up of a central star, the
Sun, and planetary bodies that revolve around it; planets, natural satellites,
comets and asteroids. There are eight major planets. The four interior planets are
small and rocky and the exterior planets are big and gaseous, some with ring
systems. The natural satellites (Moons) orbit around the planets. Their number
varies, for example Earth has one moon and Jupiter has 67. Comets become more
visible as they get closer to the Sun as their distinctive tail can be seen.
Comets have elliptical orbits. Asteroids are found mainly in the asteroid belt
between Mars and Jupiter. When a fragment of an asteroid hits a planet or
satellite it is called a meteorite and it can leave behind an impact crater.
Has the Universe always been the same? Since the beginning, with the occurrence
of the Big Bang, the universe has been changing. The Universe is not static; it
evolves. During the life of the Universe planets and other celestial bodies
have been created and destroyed. It is also known that nowadays the universe is
expanding. There are many theories about the future of the Universe: a) Big
Crunch: the metric expansion of the Universe will eventually reverse and the
universe will collapse, ultimately ending as a black hole. b) Heat Death: in which the universe will
diminish to a state of having no thermodynamic free energy, and therefore will
no longer be able to sustain processes that consume energy. c) Big Rip: In
conclusion, the theory suggests that galaxies and galaxy clusters will be split
apart due to the ever-expanding Universe.
Page 55
1.
Copy and complete the concept map:
• The Earth - has a satellite -
the moon - which appears in different phases - new moon - first quarter - full
moon - last quarter • The Earth - has a satellite - the moon - which affects
the Earth - tides - spring • The Earth - has a satellite - the moon - which
affects the Earth - Eclipse - lunar • The Earth - moves - rotation -on its axis
- which causes - day • The Earth - moves - orbit - around the sun - which
causes - seasons.
2.
The movements and position of Earth in space
The Earth rotates on its axis once
every 24 hours, causing day and night. At the same time it revolves around the
Sun, which takes 365 days, 6 hours and 9 minutes. The Earth rotates in an
anti-clockwise direction and its rotational axis is tilted 23º 27' (27 minutes)
with respect to the elliptic plane. The inclination of the Earth’s rotational
axis causes the seasons and also makes the number of hours of daylight change
during the year. The highest number of daylight hours is on the day of the
summer solstice and the lowest number is on the day of the winter solstice. The
Moon The Moon is the only satellite of the Earth and completes its orbit in
about 28 days. It also takes this time to rotate on its own axis. The Earth and
the Moon We see the Moon from the Earth as different shapes as it revolves
around us and these shapes are called phases. The main phases of the Moon are:
first quarter, full moon, last quarter and new moon. Tides are the periodic
rise and fall of sea levels and are due to the gravitational attraction of the
Sun and Moon. When the Earth, Moon and Sun are aligned, the gravitational
attraction of the Sun and Moon combine to produce spring tides. Neap tides
occur in the opposite case. Eclipses occur when the Earth, Moon and Sun are
aligned. Solar eclipses only occur during a new moon and they can be total,
partial or annular.
Page 75
The Geosphere 1.
Copy and complete the concept map:
-the Earth's crust - is made up of
- continental crust -the Earth's crust - is made up of - crusts - which are
formed with - minerals -the Earth's
crust - is made up of - crusts - which are formed with - minerals -that have
properties including - density-the Earth's crust - is made up of - crusts -
which are formed with - minerals -that form - rocks - that may be - igneous -
that may be - plutonic -the Earth's crust - is made up of - crusts - which are
formed with - minerals -that form - rocks - that may be - sedimentary -that may
be - saline/limestone -the Earth's crust - is made up of - crusts - which are
formed with - minerals -that form - rocks - that may be – metamorphic
2. Copy and complete the
statements:
The structure and composition of
the Earth • The Earth is composed of three layers: the crust, mantle and
core. • There are two types of crust:
continental and oceanic. • The most abundant element in the Earth is iron. Minerals
• Minerals are solids that are formed in nature. They have a fixed chemical
composition and internal crystalline structure. • The shape and size of the
crystals depend on how they were formed. Large crystals form when they have
time and space to grow. • Minerals have physical properties, which can be used
to identify them: hardness, density, colour, lustre and so on. • Minerals can
be used to obtain metals and in jewellery. They are also the raw material for a
huge range of manufactured products. Rocks • Rocks are made of minerals. They
are generally made up of more than one type, but some rocks consist of only
one. • Rocks are classified into three types: sedimentary, igneous and
metamorphic. • Sedimentary rocks are formed on the Earth’s surface from eroded
particles, dissolved salts and the remains of organisms. • Igneous rocks are
formed from magma. If it solidifies deep in the Earth, it forms plutonic rocks;
if it solidifies on the surface as lava, it forms volcanic rocks. • Metamorphic
rocks are rocks that were transformed deep underground by high pressure, high
temperatures, or both. • Coal and oil come from organic remains that have been
buried and transformed by the action of bacteria. • Rocks are used in
construction and road building and as raw materials for industry.
Page 93
The atmosphere
1.
Copy and complete the concept map:
The Atmosphere - is a - layer of
gases - formed by nitrogen - oxygen - other gases The Atmosphere - is a - layer
of gases - divided into vatious layers - troposphere - stratospheremesosphere -
ionosphere/thermosphere - exosphere The Atmosphere - is affected by - pollution
- produced by - human activity The Atmosphere - is affected by - pollution -
pollution effects - the enironment - acid rain - smog The Atmosphere - is what
produces - atmospheric phenomena - which include - wind - greenhouse effect -
clouds - precipitation 2. Copy and complete the sentences (gaps in italics): •
The atmosphere is the gaseous layer that surrounds the Earth. Atmospheric air
is made up of a mixture of gases, mainly nitrogen (78%) and oxygen (20.9%). The
atmosphere has different layers depending on altitude: the troposphere,
stratosphere and ionosphere, in which gas concentration decreases with altitude
and the temperature varies. • The
troposphere is the layer in contact with the Earth's surface. Clouds form there
and weather conditions occur: wind, rain, snow, etc. • The atmosphere allows
life to exist on the Earth's surface as it protects us from the Sun's heat,
prevents dangerous radiation from reaching us and contains oxygen and carbon
dioxide, which are necessary for respiration and photosynthesis. • Natural
processes and human activities, especially the use of fossil fuels, produce
substances that can damage the quality of the air and harm people and property.
In cities, these contaminants can cause a dense fog known as smog. They can
also get into the water droplets that form clouds and fall to the ground in
rainwater, causing acid rain. • The atmosphere contains gases that prevent all
of the heat from the Sun escaping overnight. They are called greenhouse gases.
In recent years, due to human activity, large amounts of these gases are being
released into the atmosphere, creating global warming that can lead to climate
change. To avoid this gradual warming, a large number of countries have signed
an international agreement, the Kyoto Protocol, promising to reduce emissions
of these gases.
ASWER THE INITIAL QUESTION
The atmosphere of the Earth is
unique in the Solar System as it creates conditions on the planet that are
suitable for living things to exist. It blocks out solar rays, creates the wind
that drives the water cycle and provides the gases needed for life, oxygen and
carbon dioxide. It also traps in heat to create a climate suitable for life to
exist. Other planets in the Solar System
do have atmospheres, but none of these create conditions that are as suitable
for life as the atmosphere of the Earth.
Page 109
1. The missing words, from top to bottom, are as follows: Water Fresh
water Anthropogenic Groundwater
2. The sentences can be completed as follows: The hydrosphere ■ The hydrosphere consists of all
the water on Earth: seas and oceans, continental runoff, groundwater and
glaciers. ■ Liquid water
has made it possible for life to develop on our planet. Water is the main
component of living things. It constitutes 70% of our bodies and in many
organisms it is as much as 95%. ■
Water is essential for living things, because many organisms live in it. Water
dissolves and carries substances needed for cell nutrition and eliminates waste
substances that organisms expel in urine and sweat. Plants need water for
photosynthesis and other biochemical reactions. Water pollution ■ Water pollution can be
anthropogenic or from natural causes. Water is polluted by urban waste or
industrial, agricultural or livestock waste. Water treatment ■ Water is a fixed resource and
larger amounts are increasingly needed, mainly because the world population is
growing. For this reason, we need to: – Use water responsibly and reuse it, and
not waste it or pollute it. – Purify water so that we can drink it. – Treat
contaminated water so we can reuse it. ANSWER THE INITIAL QUESTION Water can be
found in three states: Gas in the
clouds; liquid in lakes, seas, rivers and oceans; and solid in ice and snow.
Page 131
1. Copy and complete: – Living things / main function / provide energy to
perform life processes / which are / nutrition, reproduction, and interaction.
– Living things / biomolecules / examples / carbohydrates, lipids, and
proteins. – Biomolecules / found in cells / form tissues / form organs / form
systems / form organisms. – Biomolecules / types / prokaryotic / eukaryotic /
plant cell and animal cell.
2. Copy and complete:
The main element that living things are made up of is carbon. Other
elements are oxygen, hydrogen, nitrogen, sulphur and phosphorous. – The main
biomolecules are lipids, carbohydrates, proteins and nucleic acids. They
provide energy, produce chemical reactions, repair damaged tissue and help to
form other biomolecules and tissues. – The life processes of living things are
nutrition (autotrophic or heterotrophic), reproduction (sexual or asexual) and
interaction, which means receiving stimuli and responding to them.
Characteristics of cells – A cell is the simplest unit of an organism.
There are unicellular organisms (one cell performs all the jobs) and
multicellular organisms (each cell specialises in a function). – Most cells are
so small that we need to use an optical or an electron microscope to see them.
– Cells are surrounded by a cell membrane. The cytoplasm, where organelles can
be found, is inside the membrane. There are membranous organelles such as the
nucleus, the endoplasmic reticulum, the Golgi apparatus, the lysosomes, the
mitochondria, the vacuole and the chloroplasts. Organelles like ribosomes,
centrioles and the cytoskeleton are nonmembranous. – Cells can be divided into
prokaryotic and eukaryotic cells, depending on their structure. Bacteria are an
example of prokaryotic cells, which have no membranous organelles. In
eukaryotic cells, genetic material can be found in the nucleus, and the
organelles are in the cytoplasm. Animal and plant cells are eukaryotic. –
Specialised cells, which have a specific function, combine to form tissues, which
work together to form organs. Organs work together in systems that together
form an organism.
ANSWER THE INITIAL QUESTION ■
Living things are made up of organic matter. The key chemical element of
organic matter is carbon. Other elements that are abundant in organic matter
are oxygen, hydrogen, and nitrogen. Living things are made up of biomolecules,
whose main functions are to provide the energy to perform the life processes,
to participate in chemical reactions, and to form and repair cell tissues. There
are three types of biomolecules: lipids, carbohydrates and proteins. Biomolecules can be found in cells. A group
of cells form a tissue, a group of tissues form an organ, a group of organs
form a system, and a group of systems form an organism.
1.
Copy and complete the concept map… The concept
map can be completed as follows, with the correct words indicated in italics: –
Living things / must have cells which can be / prokaryotic / which has two
domains / bacteria and archaea / which together comprise one kingdom / Monera.
– Living things / must have cells which can be / eukaryotic / belong to the
domain / Eukarya / which has four kingdoms / Fungi / mushrooms, mould and yeast
/ Animalia / all animals / Plantae / all plants /Protista / algae and protozoa
/ lichens. 2. Copy and complete the sentences…
2.
The
sentences can be completed as follows: Biological evolution and biodiversity ●
The theory of biological evolution states that species change over time to adapt
to new environments. These changes are caused by genetic changes called
mutations. Species that do not adapt to new environmental conditions become
extinct. ● Biodiversity refers to the number and variety of species. Protecting
it is vital to the survival of our species because all living things depend on
each other. ● We use binomial nomenclature to classify and identify organisms.
This avoids confusion and ensures that each organism has its own unique
two-word name. ● Living things are
grouped into three domains: Archaea, Bacteria and Eukarya. The Eukarya domain
comprises four kingdoms: Protista, Animalia, Plantae and Fungi. ● Living things
can also be grouped according to the type of cells they have (prokaryotic or
eukaryotic), how they get nutrition (autotrophic or heterotrophic) and whether
or not they have tissue. Less complex living things ● Bacteria are organisms
that have not evolved much. They are prokaryotes and can be autotrophic or
heterotrophic. Some of them cause diseases while others are very
beneficial. ● Protists include protozoa
and algae. There are many types of protozoa. Some are parasites but most are
harmless. Algae are autotrophic organisms; they can carry out photosynthesis.
They can be unicellular or multicellular. ● Fungi are heterotrophic organisms
that, along with certain bacteria, play a very important role in the natural
recycling of organic matter. This group includes mushrooms, moulds, yeasts and
lichens. ● Some moulds, for example, Penicillium, are important to the natural
environment, and to the production of food and medicines. ● Lichens are
actually organisms formed by the symbiosis of unicellular algae and fungi.
ANSWER THE INITIAL QUESTION The origin of biodiversity is biological evolution.
This refers to the gradual change of existing organisms into different species
due to environmental pressures through the process of natural selection. Living
things can be grouped into three domains (Archaea, Bacteria and Eukarya) which
contain the traditionally used five kingdoms: Monera, Protista, Fungi, Plantae,
and Animalia. STUDY SKILLS Use the quick revision boxes.
1. Copy and complete: Plants / are divided into various groups /
non-vascular plants / vascular plants / non-seed producing plants /
seedproducing plants/ gymnosperms / conifers, gingkoes, cycads/ angiosperms/
monocotyledons / dicotyledons.
2. Copy and complete: Plants – Plants originated from green algae and
gradually adapted to life on land. – Plants are living organisms that absorb
energy from sunlight and transform it into organic matter in a process called
photosynthesis. – They are usually fixed to the ground by roots, which have
hairs that absorb water and mineral salts. – Native or indigenous plants occur
naturally in different places with the same environmental conditions. However,
endemic plants are specific to only one particular place. Non-native plants can
become invasive if they cause other plant species that are indigenous to the
area to disappear. – Plants have acquired a great variety of characteristics
that enable them to survive in diverse environmental conditions, such as
extreme conditions of drought or floods. Types of plants – Plants can be
classified according to their degree of evolution as bryophytes, pteridophytes,
gymnosperms and angiosperms. – Bryophytes have evolved very little and have no
vascular tissue. They live in humid areas and play an important role in the
formation of fertile soil. This group includes mosses. – Pteridophytes are
plants that have vessels, roots, stems and fronds. This group includes lycopods
andferns. – Plants with seeds are classified into two groups: - Gymnosperms:
these have seeds that are not protected by a fruit. This group includes
conifers such as pines and firs. - Angiosperms: these have seeds that are
protected by a fruit and have colourful flowers. They can be classified either
as monocotyledons or dicotyledonsThe ability to produce their own organic
matter makes plants special and vital for the existence of living things. They
have colonised the majority of the Earth’s ecosystems. They are vital for life
because they produce oxygen and absorb dioxide of carbon, maintaining the
temperature of the Earth constant
SUMMARY 1. Invertebrates / consist of / Sponges / cnidarians / which
include / jellyfish and polyps Plathelmynthes / which include / tapeworm /
planaria Nematodes / which include / trichinella worms / anisakis worms Annelids
/ which include / earthworms/ Molluscs which include / gastropods / which
includes / snails / bivalves / which include / mussels / cephalopods / which
include squid. Echinoderms / which include / starfish Arthropods / which
include / arachnids / which include / spiders / crustaceans / which include /
prawns / myriapods / which include / centipedes / insects which include /
butterflies. 2. The correct words are in italics The simplest invertebrates –
Sponges and cnidarians are the simplest aquatic animals. – Cnidarians are
aquatic animals and can be either polyps or jellyfish. – Platyhelminthes are
flatworms which include the tapeworm. Nematodes are roundworms which include
the harmful Trichinella genus. Annelids, molluscs and echinoderms – The bodies of
annelids are composed of rings. Examples are lugworms, earthworms and leeches.
– Molluscs are soft-bodied animals with highly developed sensory organs. The
most important molluscs are gastropods, bivalves and cephalopods. – Echinoderms
are marine animals characterised by their external skeleton and their
ambulacral system. The most important are starfish, sea urchins and sea
cucumbers. Arthropods – The bodies of
arthropods are covered by an exoskeleton.
– They have segmented bodies consisting of a head, thorax and abdomen.
They also have jointed appendages such as wings, legs, antennae and mouthparts.
– Arachnids have a body that is divided into a cephalothorax and an abdomen.
They have no antennae or mandibles, but have six pairs of appendages. The most representative
arachnids are spiders and scorpions. – The bodies of myriapods are made up of
many jointed appendages. The best known myriapods are centipedes, such as
scolopendridae, and millipedes, such as Julus terrestris. – Crustaceans are divided into lower and
upper groups. The lower crustaceans are microscopic and form part of
zooplankton. Higher crustaceans have a hard shell, two pairs of antennae, a
chewing mandible and five pairs of legs. Examples are freshwater crayfish,
prawns and crabs, among others. – Insects are the most biologically successful
arthropods. They have a pair of antennae, mouthparts adapted to different ways
of feeding, three pairs of legs and one or two pairs of wings. Their biological
success is due to their small size, ability to fly and the high number of eggs
that they produce. Answer the initial question Invertebrates dominate every
ecosystem. The invertebrates constitute more than 95% of the species on Earth.
They are key elements in the food chain as herbivores, predators, parasites and
decomposers. They are food for mammals,
birds, reptiles, fish, and other invertebrates. Invertebrates benefit the
ecosystem by means of pollination, soil formation and aeration, decomposition
and seed dispersal.
Summary 1. Vertebrates / fish / bony / tuna and anchovies
Cartilaginous / sharks and skates Amphibians / anurans / frogs and toads
Urodeles / salamanders and newts Reptiles / lizards and saurians, chelonians,
ophidians, crocodilians Birds/ flightless birds/ ostriches and emu / Waterfowl birds / penguin and cormorants
Climbing birds / parrots and woodpeckers Wading birds / storks and flamingos
Birds of prey / owls and falcons Game birds/ grouse and pheasants. Mammals
/rodents / squirrels and beaver Cetaceans / whales and dolphins Primates /
monkeys and humans Ungulates / horses and giraffes Chiropteran / bats and
flying foxes Insectivores / hedgehogs and shrews.
Initial question
Vertebrate have characteristics that make them different from other animals.
For example they have bilateral symmetry. They have an internal skeleton which
is made of cartilage or bone. The spinal column protects the spinal cord. They
also have limbs
Page 221 Summary 1. Complete the concept map: – Photosynthesis - which
needs - water - which, together with nutrients, is absorbed from the soil by
the roots. – Photosynthesis - which needs -
carbon dioxide which is captured through the - stomata. – Photosynthesis
- which needs -sunlight - which is absorbed through - leaves - which store this
energy in – chlorophyll. – these combine to make - glucose - which is converted
into - starch. – these combine to make - oxygen - which is released into - the
atmosphere.
2. Copy and complete the sentences: Photosynthesis, nutrition and
respiration of plants • Plants absorb sunlight energy in their chlorophyll and
use carbon dioxide and water to turn it into glucose and oxygen. • Plants use
the glucose to produce the nutrients they need. The oxygen is released into the
air. • Chlorophyll is a pigment found in the chloroplasts of plants and algae.
• Respiration is the process through which living things release the energy
contained in biomolecules. The exchange of gases that takes place in respiration
is the opposite of photosynthesis. When plants respire, they take in oxygen and
release carbon dioxide. • The main function of leaves is photosynthesis and
their structure is adapted to this function. Leaves have a waxy cuticle, upper
epidermis, palisade mesophyll, spongy mesophyll and lower epidermis. They also
have stomata and vascular vessels. Plant nutrition • Plant roots absorb water
and minerals through root hairs by a process called osmosis. • Carbon dioxide
enters the plant through the leaf stomata. Soil minerals provide bioelements to
manufacture proteins and cellular structures. • Plants have two systems for
transporting substances. These are called the xylem and the phloem systems. The
xylem system transports water upwards from the roots to the leaves through a
process called transpiration. The phloem system transports sap from the leaves
to the rest of the plant. Agriculture • Farmers use chemicals to achieve higher
yields. These include pesticides, which attack insects and other pests, herbicides,
which kill weeds, and fertilisers. Fertilisers are mixture of chemicals used to
enrich the soil and promote plant growth.
Page 237 Animal nutrition 1. Complete the concept map
- animal nutrition / consists of
four processes / digestion / converts food into nutrients / it can be /
extracellular / in / most vertebrates and invertebrates - animal nutrition /
consists of four processes / circulation / carries nutrients around the body /
it can be / closed / in / annelids and vertebrates - animal nutrition /
consists of four processes / respiration / uses oxygen to correct nutrients
into energy / it can be : - branchial / in / fish - pulmonary / in /
vertebrates - animal nutrition / consists of four processes / excretion /
removes waste from the body / it can use / kidneys, respiratory organs and
sweat glands / in / mammals
2. Complete the sentences
The digestive, circulatory,
respiratory and excretory systems are involved in nutrition. • Digestion is the
conversion of food into nutrients, which provide energy and components for
cellgrowth and renewal. • The circulatory system includes the heart, which
pumps blood through the blood vessels. It transports nutrients and oxygen to
cells and carries waste from the cells to the excretory organs. • The hearts of
birds and mammals consist of two pumps that work together. One pumps blood to
the lungs, where carbon dioxide is released and oxygen is collected, while the
other pumps oxygenated blood to the other organs. • In cellular respiration,
energy is released from nutrients in the presence of oxygen. This energy is
then used by the cells. • The different types of respiration are: cutaneous
(e.g. the earthworm), tracheal (e.g. insects), branchial (e.g. fish) and pulmonary
(e.g. amphibians, reptiles, birds and mammals). • The waste produced during
cellular activity is removed through a process called excretion. This waste
would be toxic if it was allowed to accumulate. • The kidneys of vertebrates
filter blood and remove excess water, salts and waste in the form of urine. The
lungs expel carbon dioxide. • In mammals, the sweat glands of the skin also
remove waste substances.
Page 255 Living things interact 1.
Copy and complete the concept map: Interaction - animals - respond to - stimuli
- through - sensory receptors - neurons -nervous system - spinal cord -
response - behaviour - Innate behaviour. Interaction - plants - respond to -
stimuli - response - tropisms - slow -e.g. - phototropism/geotropism Interaction
- plants - respond to - stimuli - response - nastic movements
2.Copy and compete the sentences
Animals respond to stimuli • A
stimulus is an external or internal factor that provokes a response in an
individual. • Receptors are specialised cells that detect stimuli and transmit
them to the nervous system and the endocrine system. Together, they form the
sense organs, which are located principally in the upper, front part of the
body. • The vertebrate nervous system consists of the brain, spinal cord and
nerves. The brain is the main coordination centre. Neurons are the main cells
in the nervous system. They transmit nerve impulses all round the body. •
Innate behaviour is present from birth and does not need to be learnt. Learnt
behaviour has to be acquired. A reflex action is a rapid, automatic response to
a stimulus. • The nervous and endocrine systems coordinate an individual’s
responses and regulate its internal functioning. • The endocrine system is a
coordination system in animals, which operates using chemical signals,
hormones, which are produced by endocrine glands in response to specific
stimuli. Hormones are released into the bloodstream and act in a specific way
on certain tissues or organs. Plants respond to stimuli • Tropisms are the
directional responses of plants to external stimuli such as light, gravity or
contact. They are controlled by the plant hormone called auxin. • Plant
hormones regulate many processes that take place in plants: growth, the loss of
leaves in autumn, flowering, the production and ripening of fruit, etc. •
Nastic movements are non-directional responses produced in plants by an
external stimulus.
Page 271 Plant reproduction 1.
Copy and complete the concept map:
- Plant reproduction - can be -
asexual - through -underground stems - tubers - potato - Plant reproduction -
can be - asexual - through underground stems - bulbs - tulip - Plant reproduction
- can be - asexual - through underground stems - rhizomes - bamboo - Plant
reproduction - can be -sexual - through flowers - gymnosperms - produces seed
cones - pine - Plant reproduction - can be -sexual - through flowers -
angiosperms - produces normal flowers orchid. 2. Copy and complete the
sentences (gaps in italics): Reproduction and its objective Reproduction is a
life process of organisms that enables them to create living things from
pre-existing ones. It allows for the indefinite continuation of the species.
There are two types of reproduction. In asexual reproduction, offspring are
identical to parents because they develop from a fragment, a spore, a bud or
parent bipartition or division. In sexual reproduction, two different cells
from different individuals come together to create a zygote from which, by
successive cell divisions, an embryo and then a new organism originates with
different characteristics from those of their parents. Reproduction in plants
As with some less evolved animals, plants have the peculiarity that throughout
their life cycle they alternate between two different organisms. The
gametophyte creates gametes, which join to form a zygote of the sporophyte. The
sporophyte creates spores from which the gametophyte originates. This feature
in plants is called alternation of generations. The flower as reproductive
organ More highly evolved plants have reduced gametophytes to a small number of
cells located in the stamens and carpels of flowers. The male gamete goes a
long way from the stigma, or top of the pistil, to reach the female gamete
located inside the ovary at the base of the pistil. Pollination In order for
pollen grains to reach the female organs of the flower, they must be carried by
bees, other insects, small birds or the wind. Pollination can occur through
self-pollination or crosspollination.
Page 289 Summary 1. Complete the
concept map (gaps in italics) types - asexual - no fertilisation -
invertabrates types - sexual - fertilisation - internal types - sexual - fertilisation
-external - bony fish -anura amphibians - frogs/toads embryo development -
ovoviviparous - oviparous viviparous – mammals
Copy and complete the sentences:
Types of animal reproduction Asexual reproduction allows animals to
produce many individuals that can expand into new territories quickly. In
sexual reproduction, a gamete from a male and a female are needed. This type of
reproduction producesgenetic variation in offspring. Gametes are formed in the
reproductive organs, or gonads. Males have testicles and they produce sperm.
Females have ovaries that produce ova.
Fertilisation in animals can be external or internal. We classify
animals according to the development of its embryo into oviparous, viviparous
and ovoviviparous animals. Parthenogenesis is a special form of reproduction in
which the embryo is formed from an ovum without fertilisation. The development
of a new organism can be direct as in most oviparous and viviparous animals, or
indirect as in butterflies and frogs, which go through a process called
metamorphosis before becoming adults. Fish and amphibian reproduction
Cartilaginous fish reproduce through internal fertilisation. Bony fish have
external fertilisation and they are oviparous. Urodele amphibians have internal
fertilisation and are oviparous. Anuran amphibians have external fertilisation.
They are oviparous ad their tadpoles undergo metamorphosis Reptile, bird and
mammal reproduction Reptiles have internal fertilisation and are usually
oviparous. Birds have internal fertilisation. They are oviparous and they
incubate their eggs. The eggs of both reptiles and birds have a protective
shell and membrane. Mammals have internal fertilisation and most of them are
viviparous. The mother and the foetus exchange substances through the placenta.
The gestation period is the time between fertilisation and birth. Young mammals
feed on milk secreted by the mother’s mammary glands.
Summary 1. Complete the concept map) types - asexual - no fertilisation -
invertabrates types - sexual - fertilisation - internal types - sexual -
fertilisation -external - bony fish -anura amphibians - frogs/toads embryo
development - ovoviviparous - oviparous viviparous – mammals
2.
Copy and complete the sentences: Types of animal
reproduction Asexual reproduction allows animals to produce many individuals
that can expand into new territories quickly. In sexual reproduction, a gamete
from a male and a female are needed. This type of reproduction producesgenetic
variation in offspring. Gametes are formed in the reproductive organs, or
gonads. Males have testicles and they produce sperm. Females have ovaries that
produce ova. Fertilisation in animals
can be external or internal. We classify animals according to the development
of its embryo into oviparous, viviparous and ovoviviparous animals.
Parthenogenesis is a special form of reproduction in which the embryo is formed
from an ovum without fertilisation. The development of a new organism can be
direct as in most oviparous and viviparous animals, or indirect as in
butterflies and frogs, which go through a process called metamorphosis before
becoming adults. Fish and amphibian reproduction Cartilaginous fish reproduce
through internal fertilisation. Bony fish have external fertilisation and they
are oviparous. Urodele amphibians have internal fertilisation and are
oviparous. Anuran amphibians have external fertilisation. They are oviparous ad
their tadpoles undergo metamorphosis Reptile, bird and mammal reproduction Reptiles
have internal fertilisation and are usually oviparous. Birds have internal
fertilisation. They are oviparous and they incubate their eggs. The eggs of
both reptiles and birds have a protective shell and membrane. Mammals have
internal fertilisation and most of them are viviparous. The mother and the
foetus exchange substances through the placenta. The gestation period is the
time between fertilisation and birth. Young mammals feed on milk secreted by
the mother’s mammary glands.
Animal Senses
From: http://www.cracked.com/article_19952_the-6-most-mind-blowing-animal-senses.html
Vampire bats are the only mammals that subsist entirely on blood -- otherwise, we'd just call them "bats." Getting their nightly blood dinner, however, requires a supersense that you probably didn't even know existed.
That nose that God forgot actually can sense the heat of your blood flowing through your veins.
Its nose-lip combo contains infrared heat cells that can sense the warmth of the blood at a distance. The crazy part is that they know where the best veins are.
Their system for heat detection is so efficient that they don't waste time. The vampire bat hones right in on the vein, first time, every time.
"Gross, these pork chops are still raw!"
The average person has about 10,000 taste buds, all in about the same place -- the mouth. According to one neurophysiologist who happens to be a catfish expert, a small 6-inch catfish can have over 250,000 taste receptors located all over its body. Or as he put it, it'd be like "if the tip of your tongue grew out and covered your body." Which is to say, you cannot touch a catfish somewhere where it cannot taste you.
Can you imagine walking through a room and tasting THE ROOM as you went by? That's what it's like to be a catfish ... all day and all night. Water pollution? Tasted it. The collective pees and poops of all the water animals in its vicinity? He tastes that shit in his sleep -- literally. There is nowhere for this animal to hide from the taste of the nastiness around him.
Of course, the catfish's sense of taste is how it locates and tracks down its food. Most of its taste buds are concentrated on its Fu Manchu mustache*, which kind of acts like a taste antenna as it swims through the current, tasting for the putrid slime trail of some prey it can swallow up
You see, fish that live in the endless night of the depths face a problem: they have to look for food while staying alert against their own predators. You almost need eyes in the back of your head ... or the ability to look up and down at the same time. This fish does that, with internal mirrors.
It makes a little more sense looking at it from the side:
The eyes are going the opposite direction you think -- the little black eyes on the bottom are looking up, for food. The big "eyes" on top are actually the backs of this mirrored surface, which collect little flashes of bioluminescence below that signal a predator is coming (the spookfish is vulnerable from below, something else useful to know if you ever have to fight a giant one).
That is, their ultrasonic clicks penetrate flesh, giving them an X-ray view of your bones and innards. A talent that they've been known to employ when killing other creatures, because they will target vital organs when they attack.
How accurate is it? Well, tests for sensitivity show that they can distinguish between two objects that differed in width by the length of a human hair from 26 feet. Oh, and they can stun fish with concentrated bursts of sound, too. That's supervillain level, right there.
Vampire bats are the only mammals that subsist entirely on blood -- otherwise, we'd just call them "bats." Getting their nightly blood dinner, however, requires a supersense that you probably didn't even know existed.
That nose that God forgot actually can sense the heat of your blood flowing through your veins.
Its nose-lip combo contains infrared heat cells that can sense the warmth of the blood at a distance. The crazy part is that they know where the best veins are.
Their system for heat detection is so efficient that they don't waste time. The vampire bat hones right in on the vein, first time, every time.
"Gross, these pork chops are still raw!"
Catfish Are Giant Swimming Tongues
Yes, catfish are just huge, fish-shaped tongues, continuously licking our waterways.The average person has about 10,000 taste buds, all in about the same place -- the mouth. According to one neurophysiologist who happens to be a catfish expert, a small 6-inch catfish can have over 250,000 taste receptors located all over its body. Or as he put it, it'd be like "if the tip of your tongue grew out and covered your body." Which is to say, you cannot touch a catfish somewhere where it cannot taste you.
Can you imagine walking through a room and tasting THE ROOM as you went by? That's what it's like to be a catfish ... all day and all night. Water pollution? Tasted it. The collective pees and poops of all the water animals in its vicinity? He tastes that shit in his sleep -- literally. There is nowhere for this animal to hide from the taste of the nastiness around him.
Of course, the catfish's sense of taste is how it locates and tracks down its food. Most of its taste buds are concentrated on its Fu Manchu mustache*, which kind of acts like a taste antenna as it swims through the current, tasting for the putrid slime trail of some prey it can swallow up
A Narwhal's Tusk Is a Huge Sensory Organ
For years, scientists have wondered what the hell was up with narwhals, the bizarre creatures that look like manatees, only with gigantic horns growing from their skulls. Are they the unicorns of the sea, and if so, do you need a human virgin to trap them? These are the questions that even science can't answer.
What we have figured out is what's up with the narwhal's single tusk. For one thing, it's not a tusk -- it's a tooth. One long, weird, spiral tooth. But what we didn't know until recently was that the narwhal's tooth is covered with 10 million nerve endings. It's not a weapon or a hunting tool , as previously assumed. It's a sensory organ capable of things we're just now starting to figure out.A Spookfish Can Hunt and Keep a Lookout Simultaneously, With Mirrorvision
If you had to guess which parts of that nightmare are its eyes , you'd go for those big orange spheres. But the reality is much cooler than that.You see, fish that live in the endless night of the depths face a problem: they have to look for food while staying alert against their own predators. You almost need eyes in the back of your head ... or the ability to look up and down at the same time. This fish does that, with internal mirrors.
The spookfish has split eyes, so it can see in both directions at once -- it's literally like having eyes in the back of its head. It's actually not a separate pair of eyes, but a complicated system that uses a curved mirror of reflective plates to collect the miniscule bits of light to be found a half-mile under the surface. So it's less like having eyes in the back of your head and more like having a pair of those sunglasses with mirrors that let you see behind you. It is the only vertebrate creature on earth that does this.
It makes a little more sense looking at it from the side:
The eyes are going the opposite direction you think -- the little black eyes on the bottom are looking up, for food. The big "eyes" on top are actually the backs of this mirrored surface, which collect little flashes of bioluminescence below that signal a predator is coming (the spookfish is vulnerable from below, something else useful to know if you ever have to fight a giant one).
Dolphins Use Holographic Imaging to See Inside You
Everyone loves dolphins. They're playful, lovable and intelligent, and they rarely ever kill just for the fun of it. But when they do decide to murder you, they have some state-of-the-art equipment to help them.
You may know already that dolphins have sonar that is far superior to their vision, creating their adorable dolphin sounds and detecting how they bounce back. In fact, the sounds they hear create a kind of holographic image in their minds. As in, they perceive echoes as 3-D shapes and textures. Dolphins can "see" sound. And if that wasn't cool (or weird) enough, they can look right inside of you.That is, their ultrasonic clicks penetrate flesh, giving them an X-ray view of your bones and innards. A talent that they've been known to employ when killing other creatures, because they will target vital organs when they attack.
How accurate is it? Well, tests for sensitivity show that they can distinguish between two objects that differed in width by the length of a human hair from 26 feet. Oh, and they can stun fish with concentrated bursts of sound, too. That's supervillain level, right there.
Tuesday, 12 June 2018
Thursday, 7 June 2018
Degradación mundial del suelo
Etiquetas:
3º ESO,
4º ESO,
ECOLOGY,
ENVIRONMENT,
GEOLOGY
Monday, 4 June 2018
Animal nutrition
http://www.edistribucion.es/anayaeducacion/8430042/UNIT_2/unit_02_video_02.html
http://www.edistribucion.es/anayaeducacion/8430042/UNIT_2/unit_02_video_03.html
http://www.edistribucion.es/anayaeducacion/8430042/unit_02.html
http://sobrebio-geo.blogspot.com/
https://drive.google.com/file/d/125gTftvhBPUlp0Bcti_j6MJTgTrQO7Dm/view
TEAM WORK!
2. ORGAN DONATION AND TRANSPLANTS 136,137
3. RESPONSES INMUNE SYSTEM 140, 141
4. MEDICINE IN THE 21st C.142,143
5.VOLCANOES: 152,153,158,159
6. EARTHQUAKES 154 155160, 161
7. SHAPING THE EARTHŚ RELIEF.170,171
8. SURFACE WATER 174 175
9. GROUNDWATER 176 177
10. SEA 182 183
11. THE NATURAL ENVIRONMENT 192 193
12. THE MAIN EC. 194 195
13. BIOMES 197 ABIOTIC FACTORS 196 198
14. BIOTIC FACTORS200 201
15. EQUILIBRIUM AND ENVIRONMENTAL CONSERVATION 202 203.
16. SOILS 204 205 206 207
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