Eutrophication…What is? “an increase in the rate of supply of organic matter to an ecosystem” Nixon(1995). The degenerative process is caused by the enrichment of water by nutrients from adjacent waters or from land via rivers. These input lead to increased algal productivity and of the production of a quantity of biomass greater than to that can be used by herbivorous organisms. What are doing the European Community? Since the beginning of the 1990s the European Union has developed several directives aimed to control the nutrient discharge in the coastal water: 1) The Urban Waste Water Treatment Directive (Directive 91/271/EEC) 2) The Nitrates Directive (91/676/EEC) 3) Integrated Pollution Prevention and Control Directive (96/61/EEC) 4) The Water Framework Directive (2000/60/EC) 5) The Marine Strategy Framework Directive (MSFD, 2008/56/EC) The MSFD Sets up 11 descriptors to reach the Good Environmental Status by In particular Descriptor 5 states that: ”human-induced eutrophication is minimised, especially adverse effects thereof, such as losses in biodiversity, ecosystem degradation, harmful algal blooms and oxygen deficiency in bottom waters.”
Eutrophication Index From Ocean Color Data: Chlorophyll Trend
Derived From A New Pan- European Regional Product. Rinaldi E.,
Colella S., Volpe G., Pitarch Portero J., Santoleri R. Institute of
Atmospheric Sciences and Climate CNR, Rome, Italy
EutrophicationWhat is? an increase in the rate of supply of organic
matter to an ecosystem Nixon(1995). The degenerative process is
caused by the enrichment of water by nutrients from adjacent waters
or from land via rivers. These input lead to increased algal
productivity and of the production of a quantity of biomass greater
than to that can be used by herbivorous organisms.
EutrophicationWhat is? an increase in the rate of supply of organic
matter to an ecosystem Nixon(1995). The degenerative process is
caused by the enrichment of water by nutrients from adjacent waters
or from land via rivers. These input lead to increased algal
productivity and of the production of a quantity of biomass greater
than to that can be used by herbivorous organisms. What are doing
the European Community? Since the beginning of the 1990s the
European Union has developed several directives aimed to control
the nutrient discharge in the coastal water: 1) The Urban Waste
Water Treatment Directive (Directive 91/271/EEC) 2) The Nitrates
Directive (91/676/EEC) 3) Integrated Pollution Prevention and
Control Directive (96/61/EEC) 4) The Water Framework Directive
(2000/60/EC) 5) The Marine Strategy Framework Directive (MSFD,
2008/56/EC) The MSFD Sets up 11 descriptors to reach the Good
Environmental Status by In particular Descriptor 5 states that:
human-induced eutrophication is minimised, especially adverse
effects thereof, such as losses in biodiversity, ecosystem
degradation, harmful algal blooms and oxygen deficiency in bottom
waters. EutrophicationWhat is? an increase in the rate of supply of
organic matter to an ecosystem Nixon(1995). The degenerative
process is caused by the enrichment of water by nutrients from
adjacent waters or from land via rivers. These input lead to
increased algal productivity and of the production of a quantity of
biomass greater than to that can be used by herbivorous organisms.
EutrophicationHow we can study it? Investigating Chlorophyll trend
in the coastal zones, allow us to obtain information about the
eutrophication state of an area. Ocean Color data represent an
essential observational tool which offers an unique perspective on
the natural environment thanks to the synoptic view, to the high
sampling frequency and spatial resolution Data MyOcean regional
product developped using the ESA-CCI (Climate Change Initiative)
Remote Sensing Reflectances (Rrs) as input data in the MyOcean OC
processing chains. For each region Chl retrieval has been
accomplished using SPECIFIC REGIONAL ALGORITHMS in order to obtain
better estimates respect to a global generic algorithm: OC488
(Taberner et al, 2014) - OCEANCOLOUR_AT L_CHL_L3_REP_OBS
ERVATIONS_009_067 BalAlg (DAlimonte et al.,2012) Not yet implemted
BSAlg (Kopelevich et al., 2013) - OCEANCOLOUR_BS_ CHL_L3_REP_OBSER
VATIONS_009_071 MedOC4 (Volpe et al., 2007) - OCEANCOLOUR_ME
D_CHL_L3_REP_OBS ERVATIONS_009_073 Temporal coverage: Spatial
resolution: 4km BalAlg Multilayer Perceptron (MLP) neural nets
trained with in situ data (CoASTS and BiOMaP) In situ observation
from SeaDataNet (http://www.seadatanet.org/) Mann-Kendall test and
Sens method applied to de-seasonalized monthly means Method
Pan-European Chlorophyll trend Black pixels indicate not
statistically significant trend Case 1 waters negative trend Case 2
waters negative/positive trend in correspondence of river outflow
Black pixels indicate not statistically significant trend Segura
Turia Jucar Mijares Shellif Ebro Positive Trend easonable causes:
Intense anthropogenic pressure (urban, industrial, port,
agricultural, aquaculture and tourism activities) (Martnez-Guijarro
et al 2013, Paredes-Arquiola et al., 2010) Negative Trend
Reasonable causes: Decrease of nutrients (Bouza et al., 2006,
Ibanez et al 2008) caused by improved water treatment and land
management along the river basin (Torrecilla et al., 2005) Negative
river discharge trend, induced dams (Ludwing et al., 2003,2009)
Black pixels indicate not statistically significant trend EBRO
Reasonable causes: Reduction of phosphorus and nitrogen input
starting from 1990 due to: Measures introduced by national and
European legislation to reduce input of nutrients. Improving
wastewater treatment through implementation of the Urban Wastewater
Treatment Directive (Ludwig et al. 2010, Romero et al.,2012,
Olivier et al. (2009). On-shore water negative Trend Off-shore
water positive Trend RHONE Reasonable causes: Might be related to
wind induced effect such as upwelling Black pixels indicate not
statistically significant trend Reasonable causes: Presence of
intensive industrial activities, anthropic and natural discharges
(Ben Mustapha et al., 1999, Kharidis et al., 2012). Phosphogypsum
pollution coming from the production of phosphoric acid (Katlane
2012) Black pixels indicate not statistically significant trend
Nile Eutrophication problems can be related to: nutrients of urban,
industrial, and agricultural origins brought by Nile (UNEP/MAP
2009). pollutants such as organics, nutrients, fertilizers into the
sea carried by Lebanese and Syrian rivers (UNEP/MAP 2009). Black
pixels indicate not statistically significant trend Ofanto Sangro
Volturno Tiber Po Arno Black pixels indicate not statistically
significant trend Ofanto Sangro Volturno Tiber Po Arno but reducing
the temporal series Black pixels indicate not statistically
significant trend Ofanto Sangro Volturno Tiber Po Po Arno Tiber
Sangro Volturno Ofanto The discrepancy can be due to: 1)Increase of
Po river discharge starting from )Lambro river disaster 3)Problems
relate Chl retrieval using only Modis and Meris sensor Black pixels
indicate not statistically significant trend Ofanto Sangro Volturno
Tiber Po Po Arno Tiber Sangro Volturno Ofanto Black pixels indicate
not statistically significant trend The discrepancy can be due to:
1)Increase of Po river discharge starting from )Lambro river
disaster 3)Problems relate Chl retrieval using only Modis and Meris
sensor Black pixels indicate not statistically significant trend
Black Sea Black pixels indicate not statistically significant trend
Atlantic Sea Baltic Sea To conclude Mann Kendall test applied to
deaseasonalized time serie of Merged Case 1- Case 2 chlorophyll has
highlighted: More intense Trend signal associated to river outflow
In the Mediterranean Sea Negative/positive trend linked to the
implementation/non-implementation of the EU Directives
