Life on Earth Flashcards

Question 1

Q

3 tiers that we can measure biodiversity

Answer

A

genetic
species (aka taxonomic)
ecosystem

Question 2

Q

biological species concept

Answer

A

is a species when it can make a fertile offspring

Question 3

Q

erwin (1998) experiment

Answer

A

using pesticide on a tree in the Panamanian rainforest
found over 400 species of beetle in the canopy
22 in the lower limbs and trunk

Question 4

Q

example of hybridisation posing a challenge in describing plant species

Answer

A

false oxlip - hybrid between primrose and cowslip

Question 5

Q

examples of plants that use uniparental reproduction

Answer

A

brambles, hawthorns, dandelions

Question 6

Q

definition of Biodiversity - Gaston and Spicer (2004, pg.6)

Answer

A

The variety of life, in all its many manifestations. It encompasses all forms, levels and combinations of natural variation and thus serves as a broad unifying concept.

Question 7

Q

how can we use fossils to identify species?….and an example

Answer

A

We study changes in fossils to see new species occurring through evolution. EG - There used to be a horse the size of a Labrador - 56-34 mya

Question 8

Q

Estimated no. insect species

Question 9

Q

what are chordates

Answer

A

vertebrates and closely related invertebrates
mammals, reptiles, amphibians, birds

Question 10

Q

what are the two main drivers of species decline?

Answer

A

habitat degradation and exploitation

Question 11

Q

what are the twin crises?

Answer

A

climate change and species extinction

Question 12

Q

what was the Mediterranean climate like 20ka ago

Answer

A

much cooler and dryer

Question 13

Q

where is resource over exploitation by humans the most damaging to species?

Answer

A

marine environments

Question 14

Q

why is fossil record difficult to use to identify species

Answer

A

we can’t see the tissue and therefore can’t identify reproductive organs

Question 15

Q

why is the no. species unknown?

Answer

A

they may be unknown to science (ie only known by indigenous people such as in tropical habitats)

many not discovered, especially soils and deep ocean benthos

Question 16

Q

why was wegeners theory not accepted at first?

Answer

A

no evidence for the tectonic movements.
he wasn’t taken seriously by the geology community as he was an atmospheric scientist

Question 17

Q

what is the current working estimate of the no. species?

Answer

A

3.5-111.5 million

Question 18

Q

how does biogeography link to colonialism

Answer

A

Slaves were used to collect plant specimens, live and dead animals, shells and rocks such as for Sir Hans Sloane and Carl Linnaeus

In naming humans as Homo Sapiens, Linnaeus divided them into 4 categories based on physical appearance; Africa, America, Asia and Europe with a hierarchy favouring Europeans. This lead to race science which devastates groups of people.

Expeditions to understand life on Earth came along side imperial expansions - Joseph Banks (Kew Gardens) went along side James Cook

fossils are held far from where they were collected or excavated

current world distribution of flora and fauna are linked strongly to colonialism - British, Spanish French and Dutch restructured alien flora world wide.

Question 19

Q

elements of ecological diversity

Answer

A

biomes, bioregions, landscapes, ecosystems, habitats, niches, populations

Question 20

Q

elements of genetic diversity

Answer

A

populations, individuals, chromosomes, genes, nucleotides

Question 21

Q

elements of organismal diversity

Answer

A

domains/kingdoms
phyla
genera
species
subspecies
populations
individuals

Question 22

Q

what is genetic diversity

Answer

A

differneces in the genetic makeup between species

Question 23

Q

what is organismal diversity and give example

Answer

A

diversity within and between taxa.
eg - marine environment has more animal phyla, but fewer species, than terrestrial realms

Question 24

Q

genera

Answer

A

A Principle taxonomic category that ranks above species and below family; denoted by a capitalised Latin name

Question 25

Q

what are the five kingdoms in taxonomy

Answer

A

bacteria, protists, plants fungi and animals

Question 26

Q

what are organisms classed into

Answer

A

kingdom, phylum, class, order, family, genus and species

Question 27

Q

what is the 3 domain classification

Answer

A

bacteria and archaea (both prokaryotes) and eukarya

Question 28

Q

what are archaea

Answer

A

single celled microbes without a nucleus (prokaryotes). look like bacteria, but different genome and often live in extreme environments

Question 29

Q

what are bacteria

Answer

A

prokaryotic (no nucleus). unicellular with no organelles. include pathogens and probiotics.

Question 30

Q

what can we use the molecular clock for

Answer

A

shows when species diverged from each other

Question 31

Q

Noss (1990) onion diagram… 3 ways of measuring biodiversity

Answer

A

compositional, functional, structural

Question 32

Q

IUCN red list meaning

Answer

A

species is endangered

Question 33

Q

how was the iberian lynx species moved from critically endangered to endangered?

Answer

A

captive breeding

Question 34

Q

simple definition of biogeography

Answer

A

reasons why species are found where they are

Question 35

Q

2 key components of measuring diversity

Answer

A

no. entities

degree of difference between those entities.

Question 36

Q

how can genetic diversity be measured

Answer

A

directly - identifying and cataloguing variation in nucleotides, genes and chromosomes

indirectly - quantifying variation in phenotypic features shown to have a genetic basis.

Question 37

Q

definition of genotype

Answer

A

set of genes an organism carries

Question 38

Q

definition of phenotype

Answer

A

physical features of an organism. influenced by both genotype and environment

Question 39

Q

why does Practical application mean biodiv is measured mostly in terms of species richness (Gaston and Spicer, 2004)

Answer

A

Practical application measurable in practice - estimations are consistent of number of species of a given status in a given tason in a given area at a given time.

Question 40

Q

why does existing information mean biodiv is measured mostly in terms of species richness (Gaston and Spicer, 2004)

Answer

A

a substantial amount of info already exists on patterns in species richness, this has been made available in scientific literature. futher info can be extracted from museum collections and computerised data bases

Question 41

Q

Question 42

Q

why does surrogacy mean biodiv is measured mostly in terms of species richness (Gaston and Spicer, 2004)

Answer

A

species richness acts as a surrogate measure for many other types of variation in biodiversity.

generally if numbers are moderate; greater no. species will embody more genetic diversity, more organismal diversity and greater ecological diversity.

Question 43

Q

h

how does wide application mean biodiv is measured mostly in terms of species richness (Gaston and Spicer, 2004)

Answer

A

the species unit is commonly seen as the unit of practical management, of legislation, of political discourse and of tradtion. variation in biodiv is often pictured as variation in species richness

Question 44

Q

Key points Why biodiv is measured mostly in terms of species richness (Gaston and Spicer, 2004)

Answer

A

practical application
existing information
surrogacy
wide application

Question 45

Q

2 KEY POINTS with explaination- limitations of measuring biodiversity in terms of species richness (Gaston and Spicer, 2004)

Answer

A

definition of species - lack of agreement on what a species is. species can be regarded as hypotheses, opinions of concepts, as much as real robust entities. More than 7 major species concepts from either theoretical/practical perspectives.
different types of diversity. example - 2 different species of mouse would be equally as diverse as a mouse and a squid. - but is this likely….normally 10s if not 100s thousands of species? Plus species richness correlates to other types of diversity

Question 46

Q

7 main species concepts provided in (Gaston and Spicer, 2004)

Answer

A

biological
cohesion
ecological
evolutionary
morphological
phyologenetic
recognition

Question 47

Q

Definition of biological species concept

Answer

A

states that a species is a group of populations whose members have the potential to interbreed in nature and produce viable, fertile offspring; they do not breed successfully with other population

Question 48

Q

Definition of cohesion species concept

Answer

A

The smallest group of cohesive individuals that share intrinsic cohesive mechanisms (eg interbreeding ability, niche)

Question 49

Q

ecological Niche meaning

Answer

A

The specific area where an organism inhabits
The role or function of an organism or species in an ecosystem
The interrelationship of a species with all the biotic and abiotic factors affecting it

Question 50

Q

morphological species concept

Answer

A

Classifies organisms based on observable phenotypic traits;It can be applied to asexual organisms, fossils, and in cases when we don’t know about possible interbreeding ; There is some subjectivity in deciding which traits to use

Question 51

Q

limitations of morphological species concept

Answer

A

species boundaries are unclear
sometimes different species look alike
only uses phenotypic data

Question 52

Q

limitations of biological species concept

Answer

A

excludes asexual taxa
complicated by natural hybridisation
polyploidy (where offspring recieve more than 1 pair of chromosomes)

Question 53

Q

(Gaston and Spicer, 2004) Provides 3 reasons why working with the fossil record is a constraing to understand history of life on Earth…

Answer

A

fossil record is far from perfect or even. The record is far better for some periods than others.
No. species leaving fossil record range from <1 to at most a few % of those that ever lived.
only a tiny fraction of the fossil record has been recovered
the record, and the portion recovered, is biased towards the more abundant, widespread and lionger lived species. Also biased towards some types of organisms than others. ie soft bodied organisms like jellyfish are rarely fossilised while there are bilions of brachiopods (hard bodied).

Question 54

Q

examples of major groupings of soft bodied organisms that have left no fossil remains

Answer

A

the Platyhelminthes - flatworms, flukes and tape worms

Question 55

Q

what % of fossil species are marine animals

Question 56

Q

what estimated % of primate species that have existed are known from fossils (and cite)

Answer

A

at most only 7% (Tavare et al, 2002)

Question 57

Q

while the fossil record continues to provide the bulk of insigns into the history of biodiversity…what else? is playing a significant role

Answer

A

molecular evidence

Question 58

Q

how can molecular evidence show history of biodiversity?

Answer

A

we study the molecular data to see patterns of phylogenetic relatedness
more different sequences will have diverged earlier in the evoulationary process
assuming rates of molecular sequences diverging.. - we can create a molecular clock and estimate times of evolutionary events

Question 59

Q

examples of molecular and fossil evidence differing - and (cite)!

Answer

A

molecular evidence suggests atleast 6 animal phyla originated deep in the Precambrian (400 myr+), much earlier than their first appearance in fossil record
*(Wang et al, 1999)

Question 60

Q

limitation of molecular evidence in understanding history of LoE

Answer

A

we assume rates of molecular divergance and the nature and dynamics of molecular clock.

Question 61

Q

4 geological eons

Answer

A

Hadean, Archean, Proterozoic, Phanerozoic

Question 62

Q

last 3 geoloic eras

Answer

A

Palaeozoic, Mesozoic, Cenozoic

Question 63

Q

periods within Cenozoic

Answer

A

Tertiary, Quaternary

Question 64

Q

Epochs within the Quaternary

Answer

A

Pleistocene, Holocene

Answer 62

A

Origin of life - First multicellular organisms

Answer 63

A

All of the major phyla arose that are present in fossil record including the first vertebrates

Answer 64

A

mass extinction of marine invertebrates, origins of mammal-like reptiles and modern insects

Answer 65

A

Origin and diversification of ruling reptiles, origin of mammals, gymnosperms dominant

Answer 66

A

Seed producing plants (spermatophytes) that do not flower - for example conifers

Answer 67

A

flowering plants. produce seeds so spermatophytes

Answer 68

A

domiance of ruling reptiles and gymnosperms

origin of birds

Answer 69

A

origin of angiosperms

ruling reptiles and many invertebrates go extinct towards the end of period

Answer 70

A

late tertiary/early Quaternary

Answer 71

A

origin of humankind

Answer 72

A

Happened more than 500million years ago.
When most of the major animal groupsn start to appear in the fossil record
Time of rapid expansion of different forms of life on Earth

Answer 73

A

Domain
Kingdom
Phylum
Class
Order
Family
Genus
Species

Answer 74

A

homology is similarity due to shared ancestry between a pair of structures or genes in different taxa.

Answer 75

A

cnidarians

Answer 76

A

over 90% (possibly close to 98%)

Gaston and spice 2004

q

Answer 77

A

could be due to the greater buffering of marine systems to environmental change

Answer 78

A

Late Ordovician
Late Devonian
Late Permian
Late Triassic
End Cretaceous

Answer 79

A

flora or fauna found at the bottom, or in the bottom sediments, of a sea or lake.

Answer 80

A

organism containing cells with nucleus

Answer 81

A

unicellular, heterotropiohc, eukaryotic species found in most habitats

Answer 82

A

an organism that cannot create its own food, instead relying on nutrition from other sources of organic carbon, mainly plant and animal matter

Answer 83

A

homonymy - the same species name may have been attriubted to more than one species
synonymy - more than one species name may have been attributed to the same species.

Answer 84

A

fungi are heterotrophic. this means they rely on using the matter og other plants. plants are autotrophic so create matter through photosynthesis

Answer 85

A

One of the most abundant species on earth. roundworms. often parasitic

Answer 86

A

13,000 per annum

36 per day

Answer 87

A

radiations and stabilisations, punctuated by mass extinctions of different taxanomic groups at different times

Answer 88

A

the number of species found within local assemblages or communities

Answer 89

A

turnover of species identities between communities

Answer 90

A

number of species occurring across a region

Answer 91

A

S=cA^z

S = number of species
A = area
c and z = constants (Arrenhius relationship)

Answer 92

A

sampling. There may be no underlying relationship between species number and area - simply more species are sampled in a larger area
habitat diversity - larger areas are more topographically and environmentally diverse, so may contain more habitats giving more opportunities for organisms to establish and persist
colonisation/extinction dynamics - colonisation rates decrease if there are more species in an area - due to fewer species meaning to colonise and early colonisers are best suited to colonisation.
extinction rates will rise if more species in an area due to more negative interactions of competition and predation.
speciation/extinction dynamics - balance between speciation and extinction most significant. the larger the area - larger potential geographic ranges of species - thus greater liklihood of speciating and smaller liklihood of extinction.

Answer 93

A

when populations evolve to become entirely unique new species

Answer 94

A

Type I - local richnes may be directly proportional to, but less than, regional richness, following a proportional sampling model
Type II as regional richness increases, local richness might attain a ceiling above which it does not rise despite continued increases in regional richness

Answer 95

A

90%
less than 15%

Answer 96

A

1.Life began in the sea -early diversification of form that led to different taxa occured in sea, with only some of groups being able to then make it onto land
2.continental environments are more hetergeneous than marine ones - this promotes greater levels of speciation on land. continental drift resulted in distinct F&F assemblages on different land masses, with different speicies with similar roles
3.ocean bed environment is less architecturally elaborate than the terrestrial environment - would promose more speciation on land
4.patterns of herbivory differ between sea and land - herbivores in marine environments tend to be generalists while terrestrial are specialist, often feeding on just a single host plant in a certain part. more specialism leads to more speciation.
5.differences in body size distributions of marine and terrestrial species assemblages - primary production, herbivory and predation involve smaller smecies in the sea than on land. Smaller bodied species maintain the continuity of larger geographic ranges more readily through larger numbers of individuals…this might reduce liklihood of allopatric speciation

Answer 97

A

species populations become geographically isolated from each other to an extent that prevents or interferes with gene flow leading to the development of a new species

Answer 98

A

Neotropics

Answer 99

A

neotropics, indotropics, afrotropics

Answer 100

A

tropical forests of africa are not as extensive, well developed or rich as those in the other 2

Answer 101

A

three tropical regions are the most biodiverse
neo tropics is the most biodiverse
the three tropics decline in biodiversity - neo, then indo then afro
the patterns in biodiversity of different biogeographic regions may not be consistent amongst many groups of organisms - for example distribution amongst regions of butterfly species appears to be more similar to that of birds than mammals

Answer 102

A

polar, westerlies, trades, coastal boundaries

on the basis of the algal ecology of the pelagic open ocean

Answer 103

A

the area of open ocean.

Answer 104

A

an area that contains exceptional concentrations of endemic species and is undergoing exceptional loss of habitat

Answer 105

A

it occurs there and nowhere else

Answer 106

A

Area - number and proportion of endemic taxon will increase with area, but somewhar weak trend
Latitude - number of endemics increases towards lower latitudes. the mean range size of species declines from high latitudes. (Gaston, et al. 1998)
Species richness - often a positive correlation but with significant outliers too. Oceanic islands have high levels of endemism but low numbers of species

Answer 107

A

unusual environmental conditions - may cause independent evolution of local adaptations that enable species to persist under these conditions but prevent them spreading more widely
isolation the separation by distance or other barriers of individuals from conspecifics enables independent evolution - thus endemic taxa
historical changing environmental conditions can constrain previously more widespread species. on continents high levels of endemism in areas of ecoclimatic stability.

Answer 108

A

persistent feature through much of the history of LoE.Example seen this with study of angiosperms in the Cretaceous (Crane and Lidgard, 1989).
peak of diversity is rarely actually the equator rather often an inflection point somewhat further north; 20-30 degrees.
gradient is commonly asymmetrical about the equator - pattern is more like a pear (increases rapidly from north to equator then declines slowly from equator to south) rather than an egg.
steepness of gradient may vary markedly between different taxa - butterflies are more tropical than birds

Answer 109

A

area effects the tropics have a larger area than temperate regions so more speciation and less extinction.
energy availability there is more energy available in low latitudes, giving a wider resource base and allowing more species to occur.
time greater evolutionary time in the tropics. less environmental perturbations like glaciation and climatic drying.

Answer 110

A

species richness declines with elevation

Answer 111

A

terrestrial species richness declines towards the tips of peninsulas

Answer 112

A

process by which food is made by bacteria or other living things using chemicals as the energy source, typically in the abscence of sunlight

Answer 113

A

decreases
increases
decreases
decreases

Answer 114

A

decreasing, hump shaped

Answer 115

A

marine species richness declines as further into the bay

Answer 116

A

rich in species

Answer 117

A

in tropical than temperate regions
at intermediate than extreme depths
in coral reefs than the pelagic zone

Answer 118

A

in tropical than temperate
regions
lower elevations
in forests than deserts

Answer 119

A

local species richness tends to be positively correlated with regional species richness

Answer 120

A

intermediate depths

Answer 121

A

direct use values

indirect use values

non-use values

Answer 122

A

direct use value

indirect use value

Answer 123

A

derives from the direct role of biological resources in consumption or production
essentially concerns biological commodities

Answer 124

A

food, medicine, biological control, industrial materials, recreational harvesting and ecotourism

Answer 125

A

300,000 +

12,500

Answer 126

A

75%, 12 plant types

Answer 127

A

insects
crustaceans
molluscs
echinoderms
vertebrates

Answer 128

A

plant medicine for primary health care

Answer 129

A

draws upon Earth system science
9 processes that are critical for maintaining the stability and resilience of Earth system as a whole
aims to quantify levels of anthropogenic perturbation that would allow Earth to remain in Holocene like state

Answer 130

A

energy flow and nonliving materials in Earth and atmosphere

Answer 131

A

Each boundary has a control variable that captures the most important anthropogenic influence at the planetary level

Answer 132

A

climate change
novel entities
stratospheric ozone depletion
atmospheric aerosol loading
ocean acidification
biogeochemical flows
freshwater change
land system change
biosphere integrity

Answer 133

A

genetic diversity - rate of extinction needs to be compatable with preserving the genetic basis of the biospheres ecological complexity
function integrity - is the HANPP at a level that does not start to diminish the biosphere

Answer 134

A

zone where Earth system risks losing Holocene like characteristics

Answer 135

A

this temperature is associated with substantial risk of triggering irreversible
zone of risk is 1-2 degrees, so this target is in the ZoR

Answer 136

A

climate change
biosphere integrity

Answer 137

A

10s-100s times larger

Answer 138

A

it is a computable proxy for photosynthetic energy and material flow into teh biosphere

Answer 139

A

substantially compromise the energy flow into the biosphere

Answer 140

A

HANPP limit should be set to preindustrial Holocene NPP not current potential NPP
this is because global increase in NPP due to anthropogenic carbon fertilisation is negative feedback from Earth system on warming.
therefore NPP contribution to carbon sink due to CO2 fertilisation should be protected and sustained rather than considering for harvesting

Answer 141

A

additional production of NPP above the Holocene baseline, not including NPP generated for carbon sinks

Answer 142

A

HANPP on land is mainly lowest tropic level- plant material
HANPP in sea at higher trophic levels - fish
means when high trophic level organisms are reduced, structure of energy flows will change, as opposed to amount of energy

Answer 143

A

annual averages of atmospheric CO2 concentration and changes in radiative forcing

Answer 144

A

350ppm
417ppm

Answer 145

A

truly novel anthropogenic introductions into the Earth system
* includes synthetic chemicals and substances, anthropogenic mobilised radioactive materials like nuclear waste, human modification of evolution like GM organisms.

Answer 146

A

the stability and resilience of the Earth system, not human or ecosystem health

Answer 147

A

measure of amount of trace gas in a vertical column through the Earths atmosphere - mainly used in study of Ozone

Answer 148

A

Since the Montreal Protocol of 1987, the trend and extent of ozone depletion has recovered slightly,
currently within the boundary - we are at 284 DU

Answer 149

A

BLUE - streamflow as a proxy for surface and groundwater
GREEN - root zone soil moisture is a proxy for plant available water

Answer 150

A

global ice free land area with stramflow/root soil moisture deviations from preindustrial levels

Answer 151

A

Aerosol Optical Depth

inegrated measure of the overall reduction in Sunlight reaching the Earths surface casued bt all absorption and scattering in the vertical air column

Answer 152

A

regional climate and precipitation
asymetries in AOD between N and S hemispheres affects monsoon systems - relative cooling in N Hemisphere pushing precipitation southwards

Answer 153

A

interhemispheric difference in AOD

Answer 154

A

carbonate ion concentration in surface seawater

Answer 155

A

tropical, temperate and boreal
they play the largest role in driving biogeophysical processes

Answer 156

A

forest cover remaining compared to the potential area of forest in the Holocene

Answer 157

A

Nitrogen and Phosphorus - they constitute the fundamentla building blocks of life and their global cycles have been markedly altered through agriculture and industry

Answer 158

A

the anthropogenic release of reactive forms to land and oceans is of interest, * altered nutrient flows and element ratios have profound effects on ecosystem composition and long term earth system effects

Answer 159

A

respecting the boundary is one of the most powerful means that humanity has against climate change
bringing global forest cover back to levels of late 20th century would provide a substantial carbon sink by 2100

Answer 160

A

taxol - compound found in pacific yew tree which kills cancer cells - one of best drugs for breast and overian cancer
cone snail venom - peptide compounds found which help keep nerve cells alive. can be used as an effective painkiller
ACE-inhibiting drugs - found in tropical pit viper venom that kills its prey by causing a drop in blood pressure - this drug has declined the death rate from heart attacks and stroke

Answer 161

A

1 in 125 (Dobson, 1995)

Answer 162

A

bears - they are the only animals in which the problem does not ocur (Chivian, 2001)
* during the 3-7 months that black bears den, they do not eat, drink, urinate or defectate yet can deliver and nurse young and maintain bone density

Answer 163

A

use of natural enemies to control species regarded as problems.

Answer 164

A

approx 30% and 40% of weed and insect controls have been successful
econ retruns can be huge, with huge monetary values of annual gains in food production

Answer 165

A

biological materials providing the models for many industrial materials and structures

japanese bullet train modeled on the beak of a kingfisher bird for its aerodynamics
tiny hooks on bur fruits inspired velcro

Answer 166

A

derives from the many functions that it performs in providing services that are crucial to human wellbeing

Answer 167

A

redundancy - beyond some min number of species necessary, most species lose their significance
rivet popping - loss of a few species has no effect, but beyond some threshold losses, the ecosystem processes will fai
idiosyncrasy as diversity changes so does ecosystem function, but the magnitude and direction of change is unpredictable

Answer 168

A

Sample effect - if in a regional pool of a large number of species, some have strong impacts on ecosystem processes, the more species drawn from the pool the greater chance it includes strong impacting species
Species complementarity - if species differ in resource use, then the more species that are included in a local assemblage the thoroughly resources will be exploited as species compliment each other
positive interactions - increasing numbers of species in a local assemblage could result in increases in the number of interactions, thus increasing ecosystem functioning

Answer 169

A

option value
bequest value
existence value
instrinsic value

Answer 170

A

biodiversity should also be retained for the options for future use or non use that it provides
includes huge potential for medicinal and industrial uses

Answer 171

A

value of passing on a resource intact to future generations.
John Locke - each generation should bequeath enough and as good for others to future generations, because justice demands it.
justice is opportunity

Answer 172

A

all other values consider marketable commodities in terms of human wellbeing
but biodiversity also values on its existence
biophilia - humans have empathy with other bearers of life

Answer 173

A

the value the entity has in itself, regardless of meeting human needs or even being quantified

Answer 174

A

could be due to more conservation activities
but more likely - introduction of more stringent criteria for deciding that a species is genuinley extinct

Answer 175

A

available info on extinctions is strongly biased towards higher plants, birds and ammals which have been better studied.
available info on extinctions is strongly biased towards islands (72% of mammalian species extincitons since 1500 are for islands) and developed nations. because its easier to document
available info on exinctions is strongly biased towards terrestrial and freshwater species, away from marine ones.
almsot invariably assumed that a described species is extant unless sufficient evidence shows they are extinct - museums contain specimens of species not seen since collected, yet no active research means we assume they are extant
unless a species is known to science their extinction will pass unrecorded. most species are unkown

Answer 176

A

direct exploitation
habitat loss and degredation
introduced species
extinction cascades

Answer 177

A

chloroflourocarbon

Answer 178

A

air bubbles in ice cores from Antarctica and Greenland

Answer 179

A

altered it, fixing N2 by combining it with C, H or O2
happens deliberately when making fertiliser or as a by product such as from fossil fuels

Answer 180

A

10% of introduced invaders become established and of those 10%, 10% become bests

Answer 181

A

alter nutrient regimes, fire regimes, hydrology, energy budgets, change vegetation or habitat, drive changes in abundance and distribution of native species

Answer 182

A

predation and parasitism

Answer 183

A

extinction of a key species may trigger a series of secondary extinctions.

Answer 184

A

over 1000

Answer 185

A

the size of human population, the rate of human population grown and the scale of the human enterprise

Answer 186

A

mutlinational treaty signed in 1992. aka rio convention
* first time biodiversity was comprehensively addressed in a binding global treaty
* first time that genetic diversity was specifically covered
* first time conservation of biodiversity was recognised as the common concern of mankind

Answer 187

A

conservation of biological diversity
sustainable use of its components
fair and equitable sharing of the benefits arising from the utilisation of genetic resources

Answer 188

A

subsidies that are adverse in the long run to both the economy and the environment.
* support for agirculture - may cause overloading of cropland leading to soil erosion, pollution from fertilisers and pesticides, and release of GHG

Answer 189

A

methods of conserving all the living species especially in wild and endangered species in their natural habitats and environment. includes biosphere reserves, national parks, sancturies etc

Answer 190

A

methods of conserving all living species in the artful habitats that reflect their natural living habitats,
eg - aquariums, botanical gardens, DNA banks, zoos

Answer 191

A

habitat heterogeneity at different scales
history - physical and ecological barriers have allowed for allopatric speciation

Answer 192

A

oceanic archipelagos

Answer 193

A

89% angiosperm
99% insects

Answer 194

A

groups of up to hundreds of species all clearly derived from a single ancestor from which they diversified without perceptible geographical isolation
now all living in the closest geographical proximity within a restricted geographical area

Answer 195

A

more than 50%

Answer 196

A

most insects are 1-20mm long
means do not require large areas for populations to sustain themselves
no long distance displacements are needed for feeding or reproduction
also too heavy/fragile for long distance transport
this facilitates isolated populations - leading to allopatric speciation

Answer 197

A

prokaryotic, mostly unicelluar forms, later accompanied by the first unicellular eukaryotes

Answer 198

A

simple algal threads composed of chain linked single cells

Answer 199

A

End Permian - 70-90% of marine invertebrate species extinct.

Answer 200

A

boundary of Cretaceous and Tertiary
disappearances of amonoids and dinosaurs
most widely investigated extinction

Answer 201

A

extinct spiral shelled cephalapods which appeared during the Devonion and disappeared in K-T extinction

Answer 202

A

arthropods and Mollusca

Answer 203

A

the study of evolutionary relationships among biological entities - often species, individuals, genes (taxa)

Answer 204

A

the evolution of a new species from a surviving ancestral species while both continue to inhabit the same geographic regions

Answer 205

A

the sum of all living species found in a given region or at a given time in the history of life

Answer 206

A

4.5 billion years ago

Answer 207

A

the scientific approach of Von Humboldt to all natural phenomena
views nature in its most holistic form - a constellation of interconnected phenomena whose patterns can be best envisioned and causes understood - when explored in synergy

Answer 208

A

the geography of plants

Answer 209

A

the map that changed the world
* the first geological map of England

Answer 210

A

tortoises from the Galapagos islands - all had different carapaces - the phenotypes had best adapted for the environment on the specific island

Answer 211

A

biogeographical theory of how species evolve through range expansions and contractions over time associated with adaptive shifts in the ecology and morphology of species
* formulated by E O Wilson

Answer 212

A

biogeographys most fundamental pattern and 1st principle
different regions of the globe, even those with similar climatic and environmental conditions, are inhabited by different species

Answer 213

A

evolution,
immigration/dispersal
extinction

Answer 214

A

organisms diversify rapidly from an ancestral species into a multitude of new forms - particularly when a change in environment makes new resources available, alters biotivc interactions or opens new environmental niches

Answer 215

A

finch speciation on Galapagos - darwins finches

Answer 216

A

macroevolution is diversification above the species level
microevolution is evolutionary diversification within a species

Answer 217

A

very regular spatial patterns of variation in environmental conditions across the planet

Answer 218

A

spatial autocorrelation - the tendency for similarity in environmental conditions between sites to decrease with distance from those sites
Enviro-geographic gradients - particular trends in environmental conditons along the principal geographic dimensions

Answer 219

A

latitude, elevation, depth, area, distance, isolation

Answer 220

A

energy of the sun - provides the energy used by nearly all biological communities and drives climatic conditions
immense heat of the core driving plate tecctonics and associated phenomena
gravitational forces influence earths revolution on axis, rotation about the sun, tides, currents etc

Answer 221

A

their principal forms of vegetation which in turn form under particular climatic conditions and soils

Answer 222

A

solar radiation is at its most intense
creates hot air masses that rise above surface high into atymosphere
as pressure decreases, the air masses cool
colder air cant hold as much moisture, water condenses and heavy precipitation occurs

i

Answer 223

A

tropical hot air masses will reach upper atmosphere and forced split to form two cells of currents - Hadley cells - flowing N and S
these air masses cool, become more dense and descend, as they do the column of air above becomes bigger, thus more air pressure
more air pressure means warmer temperatures and increased capacity for moisture - but the air has already lost most moisture above tropics!
therefore hot dry air descends leading to desert biomes

Answer 224

A

latitudes 30degrees N and S - where the air masses from Hadley cells descend

Answer 225

A

where mountain ranges occur along coast and prevailing winds are from ocean islands -
air masses rising and condensing along mountain slopes create rainforests on the windward slope -
once air passes over peak and descends it promotes the formation of deserts on leeward side

Answer 226

A

high heat capacity of water means oceans vary less in temperature compared to land or air
coastal and island environments tend to be thermally buffered - experiencing more mild summers and winters and less seasonal variation
in contrast interior regions tend to experience much more seasonality in climate, and less rainfall than needed for forest, leading ot praire, savannah and grasslands.

Answer 227

A

we see changes to pressure, temperature and precipitation as we climb
mimics the latitudinal changes in a local scale - a tropical mountain will go from tropical to polar.

Answer 228

A

the measurement of the depth of water in oceans, rivers and lakes

Answer 229

A

Malay achipeligo of Indonesia

Answer 230

A

early Mesozoic, 240-220 million years ago

Answer 231

A

large landmass - supercontinent - today part of Africa, Americas, Australia and India

Answer 232

A

much longer history of Gondwana than northern continents allowed for evolution and dispersal of species

Answer 233

A

large underwater mountains rising from sea floor, often formed from volcanic activity

Answer 234

A

hotspots above mantle plumes that pushed through oceanic crust

Answer 235

A

also called a tablemount - an underwater volcanic mountain with a flat top - eroded by marine processes

Answer 236

A

Land absorps more solar radiation than the reflective waters
Earths total heat budget was accentuated

Answer 237

A

55ma
average global temp was well over10 degrees of todays
earth was devoid of any significant ice sheets and tropical climates extended deep into arctic and antarctic latitude
replacement of ancient mammals with modern orders of today
surge in evolutionary radiations of animals and plants

Answer 238

A

the total energy emitted by the sun

Answer 239

A

eccentricity
obliquity
precession

Answer 240

A

ice sheets expanded, increasing amounts of solar radiation reflected back into atmosphere - albedo

Answer 241

A

would shift by 10 degrees in latitude
* in mountainous regions by 1000m elevation

Answer 242

A

these large mammals and bird lineages surged in diversity and ecological dominance even during intense glaciation
yet at the end of Pliestocene they collapsed
caused by humans, who spread across land bridges, rather than climate

Answer 243

A

plants - towards the start, with the changing climates cycling into glaciations
animals - towards the end with the rise of humans. not instantaneous, but with the spead of humans into different continents

Answer 244

A

they are driven largely by interactions among the species themselves,

Answer 245

A

both are from the same ancestral species of finch that colonised the archipelgo
more than 50 species in hawaii, and 14 in galapagos
hawaii’s isolation, age, time since ancestral finches arrived is greater leading to more adaptive radiation

Answer 246

A

optimal range of isolation leading to adaptive radiation. island must be within dispersal range of a few species, but well beyond range of most others

Answer 247

A

parallel - temporal-spatial patterns of divisions were repeated on each island
hierarchical - in that each separate insular lineage underwent a similar succession of further splits on progressively finer spatial scales (habitat, montane slopes, along the slope, growth form and habit)

Answer 248

A

species with limited dispersal powers and greater site fidelity are likely to have higher diversificiation rates and higher levels of endemicity

Answer 249

A

it is more likely to stay in that place

Answer 250

A

high energy demands, more specialised dites, broader home ranged and longer generation times

means evolution happens much slower than herbivores

Answer 251

A

systematic maps- static, they portray the geographic range(s) of species during a particular time period
chorological maps -dynamic as they reconstruct the evolutionary development and geographic expansions og a focal lineage over time

Answer 252

A

the tendency of an animal to remain in or return to the area of its birth

Answer 253

A

geographically explicit reconstructions of the evolutionary development of lineages across time and space

Answer 254

A

solar radiation - there is more intense solar radiation, supporting higher rates of plant productivity and growth.
climatic stability - tropics are less variable in climate over long time periods - eg glacial cycles in pleistocene - allowing species to develop niches
surface area ; tropical landmasses are bigger provifing more resources, habitats and niches, to support more plants and reduce extinciton rates
the tropics are older unlike the terrestrial or marine systems of higher latitudes, the tropics have been around for more time, allowing more species to accumulate through evolution and immigration.

Answer 255

A

colder air means there is more precipitation
more isolated leading to more divergence and endemic species
less likely to be affected by parasites, competitors and predators. (including humans)
* combination of the beneficial and negative factors

Answer 256

A

a balance of the beneficial and unbeneficial factors
solar radiation will decrease with depth, meaning less light and temp
but there is more stability deeper, as more isolated from storms
more nutrients deeper due to marine snow

Answer 257

A

continental islands - part of continental shelf but become islands when land bridges are covered by rising sea levels like Doggerland

continental fragments - broke off by tectonic drifts ie Jamaica, Cyprus

oceanic islands - islands in middle of ocean that are formed from submarine volcanism

Answer 258

A

when light is a limiting factor

Answer 259

A

if we know their tolerances, we could infer soil characteristics

Answer 260

A

ecological - all the resources a species needs to survive and reproduce, as well as its interactions with other species. the full range of conditions and resources that a species could potentially use or occupy in its habitat.

realised - This is what actually happens in nature. It’s the specific set of conditions and resources that a species uses or occupies in its habitat due to competition, predation, and other factors. Essentially, it’s the part of the ecological niche that a species actually occupies in reality.

Answer 261

A

complete competitors cannot exist, as they use the same resources. one will drive the other to extinction.

Answer 262

A

Trees in the Med aim for water as it is scarcer
UK trees aim to light due to it being the limiting factor

Answer 263

A

Oak trees have their acorns distributed by the eurasian Jay, meaning they will likely be growing close to each other. the jay tucks at the acorn, causing it to auto germinate

ash tree - seeds are wind dispersed. so trees will grow close

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