Evolution, Ecology and Biodiversity

Question 1

What is the binomial system?

Answer 1

Each organism is given a specific name of two Latin words

Question 2

The structure of the names of species?

Answer 2

• the first name is the noun (generic)
• the second name is the adjective (specific name)

Question 3

Generic name

Answer 3

It begins with a capital letter

Question 4

Specific name

Answer 4

Begins with lowercase letter

Question 5

Taxonomy

Answer 5

The science of classification. I relies on morphological characters.

Question 6

How species are grouped?

Answer 6

• similar species are grouped together into the same genus ( genera plural)
• similar genera are grouped into families

Question 7

What is taxa?

Answer 7

the general name for groups or categories within the classification system

Question 8

The hierarchy of taxa

Answer 8

1. Kingdom
2. Phylum
3. Class
4. Order
5. Family
6. Genus
7. Species

Question 9

What is the classification of living organisms?

Answer 9

1. Archaea - extremophile prokaryotes
2. Eubacteria - all true bacteria
3. Eukarya - all eukaryotic cells

Question 10

Components of Archea

Answer 10

• 70s ribosomes
• some introns
• few plasmids
• no membrane bound organelles
• few species with histones

Question 11

Components of Eubacteria

Answer 11

• 70s ribosomes
• no introns
• many plasmids
• no membrane bound organelles
• no species with histones

Question 12

Components of Eukarya

Answer 12

• 80sribosomes
• introns
• absent plasmids
• membrane bound organelles
• many species with histones

Question 13

What are plants?

Answer 13

Terrestrial multicellular organisms that are adapted to life on lands or in aquatic habitats

Question 14

What organisms are classified as plants?

Answer 14

• eukaryotic organisms that have a wall containing cellulose
• autotrophic organisms, manufacturing sugars into photosynthesis in their chloroplasts

Question 15

What are the two stages/generations of complex life cycle?

Answer 15

• gametophyte generation that produces gametes
• sporothyte generation that produces spores

Question 16

What are the main characteristics of plants?

Answer 16

• kingdom: plantae
• photosynthetic
• chlorophyll
• cellulose in the cell wall
• permanent vacuoles
• storing starch

Question 17

Describe mosses and liverworts

Answer 17

• non-vascular plants
• stems radial symmetry (mosses)
  -stems bilateral symmetry (liverworts)
• no true leaves or roots
• no cuticle
• reproductive structures are called sporangium
• for example mosses, liverworts, hornwarts

Question 18

Describe ferns

Answer 18

• leaves
• roots
• non-woody stems
• divided leaves
• reproduction includes sporangia

Question 19

Describe conifers

Answer 19

• trees
• woody stems
• waxy narrow needle-like leaves
• vascular system
• reproduction: microsporophylls (male) - in air bladders and take place in water/air dispersals and macrosporophylls (female) - ovule on the cone scale

Question 20

Describe flowering plants

Answer 20

• roots
  -stems
  -leaves
• xylem/phloem
• waxy cuticles
• variety of pollen transfers
• produce seeds

Question 21

Differences between dicotyledons (sunflowers) and monocotyledons (meadow grass)

Answer 21

sunflowers:
- 4 or 5 parts of flowers
- branched roots
- vascular bundles of stem in a ring
meadow grass:
- 3 parts of flowers
- unbranched roots
- vascular bundles of stem numerous and scattered

Question 22

characteristic features of the animal kingdom

Answer 22

• multicellular eukaryotic organisms
• highly specialized cells
• specialized tissues that form organs
• nervous system to coordinate body
• their life cycle is diploid
• constant movement
• bilateral
• cephilisation

Question 23

Post-fertilization process in animals

Answer 23

Zygote divides to produce and embryo, which early in the development becomes a characteristic hollow ball of cells- blastula

Question 24

What is blastula?

Answer 24

hollow ball of cells

Question 25

What is cephilisation ?

Answer 25

Evolutionary trend towards the centralization of neural and sensory organs in the head

Question 26

Six main phyla in animal kingdom

Answer 26

• the sponges
• jellyfish
• flat worms
• segmented worms
• mollusca
• jointed-limbed animals

Question 27

What is clade?

Answer 27

All of the organisms, both living, descended from a common ancestors

Question 28

What is cladistics?

Answer 28

• method of classifying organisms based on the construction and analysis of cladograms
• each clade consists of an ancestral organism and all of its evolutionary descendants
• members of a clade will possess common characteristics as a result of their shared evolutionary lineage

Question 29

What is cladogram?

Answer 29

evolutionary tree that shows points at which clades diverged from a common ancestral form
- there is a positive correlation between the number of differences between two species and time difference since they diverged from a common ancestor

Question 30

How the eukaryotic cells evolve from the prokaryotes?

Answer 30

They formed a symbiotic relationship with the cells they engulfed (endosymbiosis). The vital organelles that developed in eukaryote cells were mitochondria for aerobic respiration and chloroplasts for photosynthesis. Primitive eukaryotes acquired mitochondria by engulfing aerobic bacteria and chloroplasts were acquired by engulfing photosynthetic prokaryotes.

Question 31

What is the evolution?

Answer 31

It is the process by which living organisms are formed, by gradual change from previous organisms. It can occur due to mutations, selection pressures, and barriers to gene flow.

Question 32

What are the 3 evidences for evolution?

Answer 32

• study of fossils
• artificial selection
• comparative anatomy

Question 33

How fossils prove the theory of evolution?

Answer 33

• remnants of past life uncovered from the crust of the earth. method of radioisotope revealed the ages of the rock and the fossils in them, which shows the skeletal parts

Question 34

How artificial selection prove the theory of evolution?

Answer 34

• process by which all the plants and animals used by humans have been developed from wild species by selecting individuals with desirable traits and breeding from them. for instance the cow has been bred to have a straight back and she is the product of artificial selection

Question 35

How comparative anatomy prove the theory of evolution?

Answer 35

• shows that although organisms adapted to different habitats, their underlying organization can be similar. They have homologous structures which means that they are similar because they have common ancestry. There are also analogous structures, which means that they are similar in structure but have different origins

Question 36

What is the adaptive radiation?

Answer 36

Describes rapid evolutionary diversification of single ancestral line. It occurs when members of a single species occupy a variety of distinct niches with different environmental conditions.

Question 37

Natural selection

Answer 37

better adapted organisms survive to produce a greater number of viable offspring. Individuals who are better adapted tend to survive and produce offspring while those less well adapted tend to die

Question 38

How does natural selection works?

Answer 38

• populations produce more offspring than the environment can sustain
• struggle for survival increases
• organisms that have more favorable traits will survive
• they will pass those characteristics to their offspring and that will lead to a change in the characteristic of the population

Question 39

Recombination

Answer 39

re-assortment of alleles into combinations different from the parental ones, as a result of the independent assortment, crossing over, or fertilization.

Question 40

Neo-darwinizm

Answer 40

Essential restatement of the concepts of evolution by natural selection in terms of mendelian genetics

Question 41

Overproduction of offspring leads to what?

Answer 41

It leads to resource competition since the population size is naturally limited by environmental factors. the majority of organisms fail to survive and reproduce since environment cannot sustain them all.

Question 42

How the antibiotic resistance works in bacteria?

Answer 42

after the exposure to an antibiotic, the population decreases as only the bacteria with antibiotic resistance can survive. the new generation of bacteria is created. the gene for resistance can arise by mutations, infection or conjugation

Question 43

why the evolution of multiple antibiotic resistances is rapid?

Answer 43

• widespread use of antibiotics
• bacteria reproduces rapidly
• populations of bacteria is usually huge and can pass the genes through many ways

Question 44

Species

Answer 44

Group of potentially interbreeding populations

Question 45

Gene pool

Answer 45

All the different genes in an interbreeding population at a given time

Question 46

Allele frequency

Answer 46

Proportion of all the alleles of certain gene in a population.

Question 47

Speciation

Answer 47

Formation of new species from an existing population. The reproductive isolation of populations can include the temporal, behavioral and geographic

Question 48

Temporal isolation

Answer 48

organisms reproduce at certain times of the year. Differences in breeding schedules can act as the form of temporal isolation

Question 49

Behavioral isolation

Answer 49

Occurs when the presence or absence of a specific behavior prevents reproduction from taking place

Question 50

Geographic isolation

Answer 50

Two populations become isolated by a geographic barriers such as mountains, rivers, or oceans

Question 51

What are the main types of speciations?

Answer 51

-allopatric speciation
- sympatric speciation

Question 52

Explain allopatric speciation

Answer 52

Physical barrier that separates a species into geographically isolated populations, which develop independently under different conditions and eventually become unable to interbreed.

Question 53

Explain sympatric speciation

Answer 53

A gene pool can become divided without population being geographically split. A new species arise from an existing species that are living in the same area. Temporal or behavioral isolation can produce significant changes in genetic makeup/distribution.

Question 54

What is a polyploid?

Answer 54

condition where species may originate from an accident during cell division that results in the extra set of chromosomes. A second form of polyploid occurs when two different species interbreed and produce a hybrid offspring. They are sterile because the set of chromosomes from other species cannot pair during meiosis with the set of chromosomes of other species.

Question 55

What is the autopolyploid?

Answer 55

An individual that has more than two chromosome sets that are all derived from one species.

Question 56

What are the three modes of selection?

Answer 56

• stabilizing
• directional
• disruptive

Question 57

What is the disruptive selection?

Answer 57

Disruptive selection occurs when individuals with extreme phenotypes at both ends of the spectrum have a survival advantage over individuals with intermediate phenotypes. This leads to the divergence of traits within a population, potentially resulting in the formation of two distinct phenotypic groups.

Question 58

What is the directional selection?

Answer 58

Directional selection is a form of natural selection where individuals with traits at one extreme of the spectrum have a survival advantage over others, leading to a shift in the population’s average phenotype towards that extreme. This occurs when environmental conditions favor one phenotype over others, driving the frequency of the favored trait higher in successive generations.

Question 59

What is the stabilizing selection?

Answer 59

Stabilizing selection is a type of natural selection where individuals with intermediate phenotypes have a higher fitness compared to those with extreme phenotypes. This results in a reduction of genetic diversity and the maintenance of the average phenotype within the population. Stabilizing selection tends to occur in stable environments where extreme phenotypes are less advantageous.

Question 60

How species can diverge into separate species via evolution?

Answer 60

• the degree of divergence increase the longer the species are separated
• the genetic compatibility consequently decreases
• two populations will diverge to a point where they no longer interbreed if returned to the same environment.
• they will be considered as separated species
• this process is called speciation

Question 61

Define ecology

Answer 61

the study of living things in their environment.

Question 62

Ecosystem

Answer 62

stable and settled unit of nature consisting of a community of organisms, interacting with each other.
- self-contained unit
- interactive system

Question 63

Two components of ecosystem

Answer 63

• the biotic component (the organisms of an ecosystem)
• abiotic component (the physical environment of an ecosystem)

Question 64

Autotroph

Answer 64

an organism that synthesizes its organic molecules from simple inorganic molecules.

Question 65

Why are green plants and algae autotrophs?

Answer 65

They make their own organic nutrients from an external supply of inorganic molecules, using energy from sunlight in photosynthesis. They are producers.

Question 66

Consumers

Answer 66

Organism that ingests other organic matter that is living or recently killed.

Question 67

Types of consumers

Answer 67

• primary (herbivores - feeding directly on plants)
• secondary (carnivores- feeding on primary consumers)
• tertiary (carnivores- feeding on secondary consumers)

Question 68

Detrivores

Answer 68

organism that ingests dead organic matter and then digest it internally
- earthwarms

Question 68

What is the role of saprotrophs in the cycling of nutrients in the biosphere?

Answer 68

Feeding by saprotrophs releases inorganic nutrients from the dead organic matter, including carbon dioxide, water, ammonia. These inorganic nutrients are absorbed by green plants and re-used.

Question 69

Food chain

Answer 69

Sequence of organisms within a habitat in which each is the food of the next, starting with a producer, which is photosynthetic.
- usually light is the initial source of energy

Question 70

Why food chains are not isolated?

Answer 70

Most prey species have more than one predator. Predators need to exploit alternative food sources when other becomes unavailable.

Question 71

How the energy flow between producers consumers and decomposers works?

Answer 71

• producers use the light energy to release heat energy and chemical energy of sugars in photosynthesis.
• consumers feed on producers and release heat energy as well as the chemical energy which is absorbed by decomposers as consumers die. Decomposers release heat energy by feeding on death and waste materials of plants and animals.
• when organisms die their bodies are broken into simpler substances.

Question 72

Energy flow through the food chain

Answer 72

Energy is transferred from one organism to another in food chain, but only some of the energy transferred becomes available to the next organism in the food chain (10%).

Question 73

What are the two consequences of the energy loss in a food chain?

Answer 73

• the energy loss at transfer between trophic levels is the reason why food chains are short
• feeding relationships of a food chain may be structured like a pyramid.

Question 74

How to calculate the efficiency of energy flow?

Answer 74

Efficiency = y (energy available to next trophic level)/ x (energy available) x 100%

Question 75

Why only 10% is transferred to next trophic level?

Answer 75

• much energy is released in cell respiration and ATP is used for muscle contraction, some energy is converted to heat.
• not all the food eaten can be digested. some passes with faeces.

Question 76

What is the sequence of the pyramids?

Answer 76

• producers at the bottom
• primary consumers
• secondary consumers
• tertiary consumers at the top

Question 77

What happens with nutrients of the ecosystem?

Answer 77

• recycled and re-used

Question 78

Cycling of nutrients in plants

Answer 78

Obtain their essential nutrients as carbon dioxide, and water from which they manufacture sugar.

Question 79

Cycling of nutrients in animals

Answer 79

Obtain nutrients as complex organic molecules of food which they digest, absorb and assimilate into their own cells and tissues.

Question 80

What happens when organisms die?

Answer 80

Their bodies are broken and decomposed, by mainly bacteria and fungi, and their nutrients are released. Those elements become a part of the soil solution.

Question 81

The carbon cycle

Answer 81

It is the process that moves carbon between plants and animals. This means that Earth does not gain or lose carbon but carbon does move constantly. Most carbon is stored in rocks and sediments. The rest is in the ocean and atmosphere as well as in living organisms.

Question 82

Carbon sinks

Answer 82

Refer to places where carbon is stored away from the atmosphere.

Question 83

Carbon source

Answer 83

• burning fossil fuels
• forest fires
• animal respiration
• plant degradation

Question 84

How carbon cycle works?

Answer 84

• plants exchange carbon with the atmosphere
• plants absorb carbon dioxide during photosynthesis and much of this carbon dioxide is then stored in roots, permafrost, and forests.
• animals exhale carbon dioxide when they breathe and release it when they decompose
• ocean also exchanges carbon which then sinks as it cools.

Question 85

Methanogenesis

Answer 85

The production of methane by bacteria or other living organisms from organic matter in anaerobic conditions. Large quantities of methane are trapped in permafrost.

Question 86

Methanogens

Answer 86

Archaean microorganisms that produce methane as a metabolic by-product in anaerobic conditions.

Question 87

Methanogenic bacteria

Answer 87

anaerobes found in the gut of termites and cows and sheep as well in waste landfills, sewage works. They produce methane as a waste product of respiration.

Question 88

Methane

Answer 88

once it reaches the atmosphere it will be oxidised to form carbon dioxide and water.

Question 89

How GHGs change after they reach ocean?

Answer 89

• carbon dioxide will combine with water to form carbonic acid, which dissociates into hydrogen ions and hydrogen carbonate
• H+ ions will lower the ocean pH and also will combine with free carbonate ions to form more hydrogen carbonate.

Question 90

What are the two components of productivity?

Answer 90

• primary
• secondary

Question 91

Primary productivity

Answer 91

production of new organic matter by green plants

Question 92

Secondary productivity

Answer 92

production of new organic matter by consumers.

Question 93

Gross productivity

Answer 93

total amount of organic matter produced

Question 94

Net productivity

Answer 94

amount of gross production remaining after subtracting the amount used by an organism in respiration.

Question 95

Formula for net production

Answer 95

Net production = gross production - respiration