Transcript Slide 1

Role of Agri-Environment Group
Research, advice and teaching
on nutrient cycling in agriculture.
Environmental quality of:
•
Soil (heavy metals, soil structure,
bio-diversity)
•
Air (acid rain & greenhouse
gases)
•
Water (eutrophication)
In line with Government policy for a
competitive agricu
ltural industry & enhancement of
Agri-Environment Group
Mode of operation
Monitoring to quantify pollution
Databases for interrogation
Assess impact
Hypotheses for testing impacts
Experimental process studies
Modelling
New management strategies
Lough Neagh and Lough Erne Environmental Change
Network (ECN) monitoring within Agri-Environment Group
Long term lake and river
monitoring quantifies
pollution impacts and trends
Databases for interrogation
Hypotheses for
testing impacts
Assess
Ecosystem Modelling
effectiveness
Experimental process studies
New management strategies
Agri-Environment funding
sources
Research Councils
for Process studies
DARD core
funding for
monitoring, data
interrogation &
research
DOE- EHS for
management
strategies.
PhD awards to
study mechanisms
& processes
Industry for new
management
practices
Agri-Environment Group
Research
Collaborators
• ARIH
• Biometrics
• Agric. Econ.
• GB
• USA
• Ireland
• Germany
• China
• Canada
• Israel
• New Zealand
• Australia
QUB postgraduate
and undergraduate
teaching
AEG
Stakeholders
•Farmers
•Fertiliser industry
•Feed industry
DARD
• Policy Division
• Countryside
Management Division
• Greenmount College
• Forest Service
• Rivers Agency
Other Government
Departments
• DOE EHS
• DRD Water Service
• UK - DEFRA
• UK Environ Agency
Lough Neagh: An example of long-term
monitoring and associated research.
Major water supply for
Northern Ireland - c50% of
supply.

Largest eel fishery in Europe
provides local employment.

Conservation value (Ramsar
site, rare plants, rare fish
species).

Under-utilised tourism and
recreation resource.


Poor water quality!
Lough Neagh - a hypertrophic lake overenriched with phosphorus
Total Phosphorus (mg P L-1)
0
50
100
150
Neagh
Erne
Derg
Sheelin
Macnean
Ennell
Corrib
Mask
Conn
OECD target
for eutrophic
lakes
Too much phosphorus leads to:
• Increased primary production
• Algal blooms
• Oxygen depletion
• Production of algal toxins
•Tastes and odours
• Loss of biodiversity & amenity
values
•Higher water treatment costs
Lough Neagh - long term monitoring
Regular lake and
river sampling since
early 1970s provides a
unique record.

Underpins advice to
Government and
agricultural industry.

Led to associated
research programmes.

Phosphorus concentrations in Lough
Neagh 1974-2000
1.0
800
Soluble reactive P loss
0.8
Runoff
600
0.6
400
0.4
200
0.2
0.0
1960
0
1970
1980
1990
2000
Runoff (mm yr-1)
Diffuse Phosphorus loss (kg P ha-1 yr-1)
Phosphate inputs from agriculture to Lough
Neagh - the benefit of a long term record.
Phosphorus (kg P ha-1 yr-1)
Phosphorus budget for
Northern Ireland agriculture 2000
25
20
15
10
5
0
Input
Output
Surplus
INPUTS
Rain
Fertiliser
Poultry feed
Pig feed
Beef & sheep feed
Dairy concentrates
OUTPUTS
Drainage
Arable ouput
Poultry output
Pig output
Beef & sheep output
Dairy output
Diffuse phosphorus loss rates &
cumulative soil phosphorus
0.8
Cumulative soil P
0.6
900
Diffuse soluble
reactive P loss
0.4
700
0.2
500
1960
0
1970
1980
1990
2000
Diffuse loss (kg P ha-1 yr-1)
Cumulative soil P (kg P ha-1)
1100
Impact of phosphorus surplus on soil
test phosphorus
• Phosphorus surplus dates
% of samples
50
1940s
40
1990s
•
30
20
10
•
0
Deficient
Low
Adequate
Excess
Soil P status for grass production
from 1940s, when soils
were deficient in P and
hence benefited from P
fertiliser inputs.
Most (99%) of the
phosphorus surplus stays
in the soil.
By the 1990s excess P
levels occurred in 45 % of
soils. Crops from these
soils will not benefit from
more P.
Research arising from
Lough Neagh monitoring: 1
DOE (EHS) - EU Interreg funded
project on phosphorus exports
from an agricultural catchment.
Soil phosphorus
in Colebrooke
catchment
•
Project produced detailed field
by field distribution of soil P large areas with excessive P.
•
Related P losses in streams to
soil P and manure production.
•
‘Hot-spot’ streams often
polluted with farm effluents.
-1
Soil water soluble P (mg P L )
Research arising from
Lough Neagh monitoring: 2
DOE (EHS) - EU Interreg funded project on
environmental tests for assessing eutrophication
potential of NI soils.
5
Critical soil
• Agronomic soil tests were
P saturation
4
not developed for
environmental purposes.
3
2
•
Capacity of soils to sorb
phosphorus could be
predicted from easily
measured soil variables.
•
Soils with P saturation in
excess of 20% were
vulnerable to P loss.
1
0
0
20
40
Degree of soil P saturation (%)
60
Research arising from
Lough Neagh monitoring: 3
PhD modelling study of phosphorus in rivers
• Related satellite derived landuse data (CORINE) and
monitored concentrations of
phosphorus from farm streams
data from another project.
• GIS-based model predicts
river phosphorus in rivers in N.
Ireland based on current landuse.
• Impacts of future land-use
River Bush catchment
changes on phosphorus losses
can be assessed.
Impact on policy from
Agri-Environment Group
phosphorus research:
DOE-Environment & Heritage
Service
• DOE - EHS, the Northern Ireland
environmental regulator, recognises
eutrophication to be most
widespread water quality problem in
Northern Ireland.
• EHS
control proposals made
extensive use of Agri-Environment
Group data.
• EHS awarded contract in 2001 for
an economic analysis of the value of
lakes & costs of remedial measures.
Policy initiative arising from Agri-Environment
Group phosphorus research:1
Agricultural sector & Dept of Agriculture & Rural
Development
Responsible
Phosphorus
Management
•A joint initiative by
DARD, the farming
unions in Northern
Ireland and Fertiliser
Manufacturers’
Association to reduce
phosphorus use.
Policy initiative in response to Agri-Environment
Group phosphorus research: 2
Dept of Agriculture & Rural Development
Erne Catchment Nutrient
Management Scheme
•Targeted nutrient
management plans in the
Erne Catchment.
• On-farm monitoring by
Agri-Environment Group
showed no adverse
agronomic impacts of
reducing phosphorus use.
Technology transfer from Agri-Environment Group
phosphorus research
Precision Nutrient Management
• DARD technology
transfer undertaken via
Greenmount College &
Countryside Mgt. Div.
• Advice transmitted
through farming press,
radio & TV features
and demonstration
visits to farms that
have adopted
Precision Nutrient
Management.
ECN - Lough Neagh monitoring is
part of the UK Environmental
Change Network
• ECN is the UK's long-term
environmental monitoring programme.
Designed to interpret impacts of the key
variables which drive and respond to
environmental change.
• Sponsored by 14 UK government
departments and agencies who
contribute through site monitoring and
network co-ordination activities.
• On behalf of DARD, Agri-Environment
Group, operates three freshwater sites
(Loughs Neagh & Erne and River Bush)
and one terrestrial site (Hillsborough).
Agri-Environment Group
phosphorus research
links
• EU COST 832 Quantifying the
Agricultural Contribution to
Eutrophication - a European
grouping of phosphorus
researchers.
• Phosphorus research in Ireland
(Teagasc - EPA contracts).
• Member of USDA Information
Exchange Group SERA -17
Minimizing Phosphorus Losses
from Agriculture.
• AEG members organised OECD
workshop on phosphorus issues.
Water Framework Directive
2000/60/EEC
 By 2015 all water-bodies in member states should
be at least of good ecological status.