Abstract.
Droughts
are
often
long
lasting
phenomena,
without
a
distinct
start
or
end,
and
with
impacts
cascading
across
sectors
systems,
creating
long-term
legacies.
Nevertheless,
our
current
perception
management
of
droughts
their
is
event-based,
which
can
limit
the
effective
assessment
drought
risks
reduction
impacts.
Here,
we
advocate
for
changing
this
perspective
viewing
as
hydro-eco-social
continuum.
We
take
systems
theory
focus
on
how
“memory”
causes
feedback
interactions
between
parts
interconnected
at
different
time
scales.
first
discuss
characteristics
continuum
hydrological,
ecological,
social
separately;
then
study
system
systems.
Our
analysis
based
review
literature
five
cases:
Chile,
Colorado
River
Basin
in
US,
Northeast
Brazil,
Kenya,
Rhine
Northwest
Europe.
find
that
memories
past
dry
wet
periods,
carried
by
both
bio-physical
(e.g.
groundwater,
vegetation)
people,
governance),
influence
future
risk
manifests.
identify
four
archetypes
dynamics:
Impact
&
recovery;
Slow
resilience-building;
Gradual
collapse;
High
resilience,
big
shock.
The
ecological
result
shifting
these
types,
plays
out
differently
case
studies.
call
more
research
pre-conditions
recovery
dynamics
triggering
changes,
dynamic
vulnerability
maladaptation.
Additionally,
argue
continuous
monitoring
hazards
impacts,
modelling
tools
better
incorporate
adaptation
responses,
strategies
increase
institutional
memory
to
deal
complex
pathways
adaptation.
Water,
Journal Year:
2024,
Volume and Issue:
16(5), P. 629 - 629
Published: Feb. 20, 2024
To
advance
actionable
knowledge
production
in
the
context
of
water
struggles,
this
article
identifies
ways
to
strengthen
transformative
learning
processes
within
riverine
social
movements.
The
complex
challenges
associated
with
struggles
point
an
increasing
need
explore
which
these
can
be
shaped
and
promote
changes
worldviews
that
inform
how
environments
are
perceived
structured.
This
study
draws
on
grassroots
movement
for
social-ecological
regeneration
Taquara
Stream
Porto
Alegre,
Brazil.
Research
case
has
shown
actions
conducted
by
fostered
through
creation
innovative
forms
involvement
brought
together
multiple
actors.
A
panel
experts
in-depth
analysis
practices
observed
case.
discusses
five
aspects
process,
have
been
identified
experts,
essential
expanding
potential
water-related
movements:
(1)
building
relationships
trust
between
actors,
(2)
links
key
actors
(3)
creating
dialogue
spaces
co-creation
knowledge,
(4)
engaging
spontaneously,
proactively,
co-responsibly
(5)
bringing
participatory
research
into
local
processes.
Abstract.
Droughts
are
often
long
lasting
phenomena,
without
a
distinct
start
or
end,
and
with
impacts
cascading
across
sectors
systems,
creating
long-term
legacies.
Nevertheless,
our
current
perception
management
of
droughts
their
is
event-based,
which
can
limit
the
effective
assessment
drought
risks
reduction
impacts.
Here,
we
advocate
for
changing
this
perspective
viewing
as
hydro-eco-social
continuum.
We
take
systems
theory
focus
on
how
“memory”
causes
feedback
interactions
between
parts
interconnected
at
different
time
scales.
first
discuss
characteristics
continuum
hydrological,
ecological,
social
separately;
then
study
system
systems.
Our
analysis
based
review
literature
five
cases:
Chile,
Colorado
River
Basin
in
US,
Northeast
Brazil,
Kenya,
Rhine
Northwest
Europe.
find
that
memories
past
dry
wet
periods,
carried
by
both
bio-physical
(e.g.
groundwater,
vegetation)
people,
governance),
influence
future
risk
manifests.
identify
four
archetypes
dynamics:
Impact
&
recovery;
Slow
resilience-building;
Gradual
collapse;
High
resilience,
big
shock.
The
ecological
result
shifting
these
types,
plays
out
differently
case
studies.
call
more
research
pre-conditions
recovery
dynamics
triggering
changes,
dynamic
vulnerability
maladaptation.
Additionally,
argue
continuous
monitoring
hazards
impacts,
modelling
tools
better
incorporate
adaptation
responses,
strategies
increase
institutional
memory
to
deal
complex
pathways
adaptation.
Abstract.
Droughts
are
often
long
lasting
phenomena,
without
a
distinct
start
or
end,
and
with
impacts
cascading
across
sectors
systems,
creating
long-term
legacies.
Nevertheless,
our
current
perception
management
of
droughts
their
is
event-based,
which
can
limit
the
effective
assessment
drought
risks
reduction
impacts.
Here,
we
advocate
for
changing
this
perspective
viewing
as
hydro-eco-social
continuum.
We
take
systems
theory
focus
on
how
“memory”
causes
feedback
interactions
between
parts
interconnected
at
different
time
scales.
first
discuss
characteristics
continuum
hydrological,
ecological,
social
separately;
then
study
system
systems.
Our
analysis
based
review
literature
five
cases:
Chile,
Colorado
River
Basin
in
US,
Northeast
Brazil,
Kenya,
Rhine
Northwest
Europe.
find
that
memories
past
dry
wet
periods,
carried
by
both
bio-physical
(e.g.
groundwater,
vegetation)
people,
governance),
influence
future
risk
manifests.
identify
four
archetypes
dynamics:
Impact
&
recovery;
Slow
resilience-building;
Gradual
collapse;
High
resilience,
big
shock.
The
ecological
result
shifting
these
types,
plays
out
differently
case
studies.
call
more
research
pre-conditions
recovery
dynamics
triggering
changes,
dynamic
vulnerability
maladaptation.
Additionally,
argue
continuous
monitoring
hazards
impacts,
modelling
tools
better
incorporate
adaptation
responses,
strategies
increase
institutional
memory
to
deal
complex
pathways
adaptation.
Abstract.
Droughts
are
often
long
lasting
phenomena,
without
a
distinct
start
or
end,
and
with
impacts
cascading
across
sectors
systems,
creating
long-term
legacies.
Nevertheless,
our
current
perception
management
of
droughts
their
is
event-based,
which
can
limit
the
effective
assessment
drought
risks
reduction
impacts.
Here,
we
advocate
for
changing
this
perspective
viewing
as
hydro-eco-social
continuum.
We
take
systems
theory
focus
on
how
“memory”
causes
feedback
interactions
between
parts
interconnected
at
different
time
scales.
first
discuss
characteristics
continuum
hydrological,
ecological,
social
separately;
then
study
system
systems.
Our
analysis
based
review
literature
five
cases:
Chile,
Colorado
River
Basin
in
US,
Northeast
Brazil,
Kenya,
Rhine
Northwest
Europe.
find
that
memories
past
dry
wet
periods,
carried
by
both
bio-physical
(e.g.
groundwater,
vegetation)
people,
governance),
influence
future
risk
manifests.
identify
four
archetypes
dynamics:
Impact
&
recovery;
Slow
resilience-building;
Gradual
collapse;
High
resilience,
big
shock.
The
ecological
result
shifting
these
types,
plays
out
differently
case
studies.
call
more
research
pre-conditions
recovery
dynamics
triggering
changes,
dynamic
vulnerability
maladaptation.
Additionally,
argue
continuous
monitoring
hazards
impacts,
modelling
tools
better
incorporate
adaptation
responses,
strategies
increase
institutional
memory
to
deal
complex
pathways
adaptation.
Abstract.
Droughts
are
often
long
lasting
phenomena,
without
a
distinct
start
or
end,
and
with
impacts
cascading
across
sectors
systems,
creating
long-term
legacies.
Nevertheless,
our
current
perception
management
of
droughts
their
is
event-based,
which
can
limit
the
effective
assessment
drought
risks
reduction
impacts.
Here,
we
advocate
for
changing
this
perspective
viewing
as
hydro-eco-social
continuum.
We
take
systems
theory
focus
on
how
“memory”
causes
feedback
interactions
between
parts
interconnected
at
different
time
scales.
first
discuss
characteristics
continuum
hydrological,
ecological,
social
separately;
then
study
system
systems.
Our
analysis
based
review
literature
five
cases:
Chile,
Colorado
River
Basin
in
US,
Northeast
Brazil,
Kenya,
Rhine
Northwest
Europe.
find
that
memories
past
dry
wet
periods,
carried
by
both
bio-physical
(e.g.
groundwater,
vegetation)
people,
governance),
influence
future
risk
manifests.
identify
four
archetypes
dynamics:
Impact
&
recovery;
Slow
resilience-building;
Gradual
collapse;
High
resilience,
big
shock.
The
ecological
result
shifting
these
types,
plays
out
differently
case
studies.
call
more
research
pre-conditions
recovery
dynamics
triggering
changes,
dynamic
vulnerability
maladaptation.
Additionally,
argue
continuous
monitoring
hazards
impacts,
modelling
tools
better
incorporate
adaptation
responses,
strategies
increase
institutional
memory
to
deal
complex
pathways
adaptation.
Abstract.
Droughts
are
often
long
lasting
phenomena,
without
a
distinct
start
or
end,
and
with
impacts
cascading
across
sectors
systems,
creating
long-term
legacies.
Nevertheless,
our
current
perception
management
of
droughts
their
is
event-based,
which
can
limit
the
effective
assessment
drought
risks
reduction
impacts.
Here,
we
advocate
for
changing
this
perspective
viewing
as
hydro-eco-social
continuum.
We
take
systems
theory
focus
on
how
“memory”
causes
feedback
interactions
between
parts
interconnected
at
different
time
scales.
first
discuss
characteristics
continuum
hydrological,
ecological,
social
separately;
then
study
system
systems.
Our
analysis
based
review
literature
five
cases:
Chile,
Colorado
River
Basin
in
US,
Northeast
Brazil,
Kenya,
Rhine
Northwest
Europe.
find
that
memories
past
dry
wet
periods,
carried
by
both
bio-physical
(e.g.
groundwater,
vegetation)
people,
governance),
influence
future
risk
manifests.
identify
four
archetypes
dynamics:
Impact
&
recovery;
Slow
resilience-building;
Gradual
collapse;
High
resilience,
big
shock.
The
ecological
result
shifting
these
types,
plays
out
differently
case
studies.
call
more
research
pre-conditions
recovery
dynamics
triggering
changes,
dynamic
vulnerability
maladaptation.
Additionally,
argue
continuous
monitoring
hazards
impacts,
modelling
tools
better
incorporate
adaptation
responses,
strategies
increase
institutional
memory
to
deal
complex
pathways
adaptation.
