Ecotoxicology
Part 1 - Introduction
Ludek Blaha + ecotox colleagues
Global anthropogenic threats ?
A safe operating space for humanity
& the nine planetary boundaries
Rockstrom et al. 2009
(Ecology and Society 14(2): 32; Nature 461, 472-475)
1996 - Chemicals in the environment
Do you believe that chemicals in
products sold to consumers have been
proven safe?
Think again
most chemicals in modern use
have simply not been tested for their
impacts on
human, even very basic effects.
… what about the effects in nature, then ?
How we stand 20 years later?
Environmental pollution
Examples and ecological cosequences
Contamination of water - chemicals ?
Degradable „nontoxic“
organic material
+ nutrients / fertilizers (N/P)
„Other“ chemicals
HO
OH
HO
OH
HO
OH
Major anthropogenic threats – example: waters
DirectIndirect
Impacts
• Loss of biodiversity
Major impacts
Changes in biodiversity
Changes in biodiversity
NATURE (2012) 482: 20
• Loss of biodiversity
Major impacts
• Impairment of ecosystem services
– Unbalanced water cycles
• Water scarcity
• Draughts/floods
– Impaired water quality
• Drinking waters
• Bathing waters
• Toxicants in food chain
– Shrinking of food supplies
• Direct  lowering fish amounts
• Indirect  crop yield
Impacts on fish  decreased crop yields
NATURE (2005) 437: 880
Impacts on biota  global effects
Mixing oceans
 cooling the atmosphere
[Nature 447, p.522, May 31, 2007]
Marine life supplies up to 50% of
the mechanical energy required
worldwide to mix waters from the
surface to deeper cool layers
[Dewar, Marine Res 64:541 (2006)]
[Katija a Dabiri, Nature 460:624 (2009)]
Ecotoxicology
assessment o hazards
and risks of chemicals in
ecosystems
Assessment of chemical hazards
…to…
Humans Other organisms
(TOXICOLOGY) (ECOtoxicology)
• Aim: to maintain the natural structure and function of ecosystems
• Definitions:
 ecotoxicology is concerned with the toxic effects of chemical
and physical agents on living organisms, especially on
populations and communities within defined ecosystems; it
includes the transfer pathways and their interactions with the
environment
 science of contaminants in the biosphere and their effect on
constituents of the biosphere, including humans’ (Newman &
Unger, 2002)
 science that provides critical information on effects of toxic
compounds on living organisms which SERVE various practical
aims (environmental protection)
ECOTOXICOLOGY by definition
CHEMICAL
ENTERS THE
ENVIRONMENT
Bioavailable
fraction
“EXPOSURE”
acute
chronic
Toxicokinetics
biotransformation
bioactivation
excretion / sequestration
Target site
“EFFECT”
LEVELS, FATE,
PROCESSES
CHEMICAL
ENTERS THE
ORGANISM
biomonitoring
Ecotoxic effects
Escher, B. I., Behra, R., Eggen, R. I. L., Fent, K. (1997), "Molecular mechanisms in ecotoxicology:
an interplay between environmental chemistry and biology", Chimia, 51, 915-921.
Ecotoxicology - from molecules to ecosystems
… and backwards
From ecosystems

down the mechanisms
From mechanisms (molecules)

up to effects and ecosystems
OR ?
1962
© Patuxent Wildlife
Refuge, MA, USA
http://www2.ucsc.edu/scpbrg/
Bitman et al. Science 1970, 168(3931): 594
Biochemistry
bird carbonate dehydratase
In vivo: shell thinning
In situ: bioaccumulation
-> bird population decline
1) From molecules to individuals
MECHANISMS OF TOXICITY
2) From molecules to individuals - AOPs
ADVERSE OUTCOME PATHWAYS
Ethinylestradiol
HO
OH
Binds to
ESTROGEN
RECEPTOR
Target genes
- Proliferation/Apoptosis (sexual organs)
- Synthesis of egg yolk (fish, amphibia)
Effects
- Females: reproduction regulation
- Males: feminization
(+ e.g. cancer promotion, development,
immunomodulation)
AOP Example: ethinylestradiol
Kidd, K.A. et al. 2007. Collapse of a fish population
following exposure to a synthetic estrogen. Proceedings
of the National Academy of Sciences 104(21):8897-8901
Controls +Ethinylestradiol
5 ng/L (!)
7 years
HO
OH
• Molecular
 Nonspecific effects
 Hydrophobic interactions with phospholipid membranes
(baseline = narcotic toxicity)
 Direct reactivity: electrophilic compounds  nucleophilic organism
(e.g. oxidation of PROTEINS, lipids (membranes), DNA …)
 Specific effects
 Activation of ER, AR and other „nuclear receptors“
 Inhibition of enzymes (e.g. CN- inhibits hemes in mitochondria/hemoglobin,
insecticides …)
Effects at different levels - molecular
• Cellular
 Effects on structure
 Effects on metabolism (maintenance)
 Effects on regulation
Changes in functions (e.g. Ethinylestradiol)
Repair, survival, growth
Death (apoptosis or necrosis)
Proliferation
Differentiation
Effects at different levels - cellular
• Organism level – important in ecotoxicology (see Bioassays)
 Effects on structure
 Effects on metabolism (maintenance)
 Effects on regulation
Changes in functions (e.g. Ethinylestradiol)
Repair, survival, growth
Death
Proliferation = Reproduction
Effects at different levels - ORGANISM
3 key apical endpoints
(reflected e.g. in regulations)
Metabolism
Control,
Interactions
with environment
Defence
against pathogens
predators …
Defence against
toxicants
Energy
hv
food
Losses
heat
faeces
Life
(maintenance)
Growth
to sexual
maturity
Reproduction
Chemical
stress
Metabolism
Control,
Interactions
with environment
Defence
against pathogens
predators …
Defence against
toxicants
Energy
hv
food
Losses
heat
faeces
Life
(maintenance)
Growth
to sexual
maturity
Reproduction
Chemical
stress
Chemical stress
 energy re-allocation
 „insufficient“ resourses
elsewhere
Metabolism
Control,
Interactions
with environment
Defence
against pathogens
predators …
Defence against
toxicants
Energy
hv
food
Losses
heat
faeces
Life
(maintenance)
Growth
to sexual
maturity
Reproduction
Chemical
stress
Chemical stress
+ ... another stress
(food scarcity)
• Population
(… all the organisms that both belong to the same group or species (i.e.
can sexually reproduce) and live in the same time within the same
geographical area)
 Effects on structure
 elderly vs. young, males vs. females
 Effects on maintenance & growth
 Natality, mortality, reproduction fitness
Effects at different levels
• Community & Ecosystem
(… a group of interacting living organisms sharing a populated
environment)
 Effects on structure
 Loss of species, loss of biodiversity
 Effects on functioning
 (including „ecosystem
functions“)
Effects at different levels
• Ecotoxicology as a science with close links to practical environmental
protection
– Understand the importance and links between BIODIVERSITY and ECOSYSTEM
SERVICES
• Understand keywords such as
– Exposure
– Bioavailability
– Toxicokinetics
– Toxicodynamics
• From molecular events to higher levels
– Be aware of different biological levels - from molecules to communities
– Know examples of effects at these different levels
– Know example(s) of „Adverse Outcome Pathway(s)“
WRAP UP … take home message