session 2 15h15 norman_intercrops cambridge univ

20
Louiza Norman Waste not, want more; growing algae on nitrate waste

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Waste not want more --Louiza Norman, EnAlgae project, Cambridge University, UK --

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Page 1: Session 2 15h15 norman_intercrops cambridge univ

Louiza Norman

Waste not, want more; growing algae on nitrate waste

Page 2: Session 2 15h15 norman_intercrops cambridge univ

• Cambridge Water - bioremediation – Laboratory experiments

– Socks

– PBR

• Future experiments - Polar species

• Future innovations

Talk outline

Page 3: Session 2 15h15 norman_intercrops cambridge univ

Cambridge Algal Innovation Centre

Partnership with Cambridge Water

• Large volumes of high NaCl, high Nitrate containing waste water (Brine) •Currently diluted with ground-water prior to feedback into system/sewage •Can we grow algae on this waste water? (ie, denitrification) •Biomass could be used for other commercial purposes

Page 4: Session 2 15h15 norman_intercrops cambridge univ

Why does Cambridge Water have large amounts of brine waste?

• Ground water contains very high concentrations of nitrates (from fertilisers, animal waste etc) • Pass ground water through columns that contain resins • Anions, specifically nitrate anions (NO3

-) replace chloride ions in the resins • Rejuvenating the resins is by washing the resin with Brine (high NaCl) • The high concentration of chloride ions replaces the nitrates

Page 5: Session 2 15h15 norman_intercrops cambridge univ

Can algae grow in this brine + nitrate waste water?

Cambridge Water provided a) 10 L of 100% crude Brine wash b) 10 L of diluted brine wash (1:3 brine : GW)

What is in this waste?

100% Brine Diluted Brine UK drinking water standards pH 7.64 8.13 6.5 - 9.5 Nitrate 4210 53.3 50 mg L Chloride 52700 1090 250 mg L Sodium 44300 6990 200 mg L Phosphate 0.29 0.25 none mg L Sulphate 1820 1090 250 mg L

Page 6: Session 2 15h15 norman_intercrops cambridge univ

Nannochloropsis oculata (freshwater)

Initial test species

Chlorella vulgaris (freshwater)

Phaeodactylum tricornum (marine diatom)

Tetraselmis suecica (marine flagellate)

Isochrysis galbana (marine flagellate)

Pavlova lutheri (marine flagellate)

Craig Pooley - Swansea

Dunaliella salina marine

Page 7: Session 2 15h15 norman_intercrops cambridge univ

Can algae grow in the crude waste mixed with growth media?

Growth Shaker 12/12h 25 OC Marine f/2 growth media (f/2) f/2 minus NaNO3 + Brine Waste (eq. 55 mg NO3/L)

Standard f/2 f/2 (-N) plus Brine Waste

Page 8: Session 2 15h15 norman_intercrops cambridge univ

Brine tolerance – Laboratory conditions

0,0

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1,0

0 5 10 15

OD

75

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Days from start

Pavlova (Marine species) Standard f/2 (55 mgNO3/L

100% Brine Waste(>4 g NO3/L)

f/2 (-N) + 2 % brine(275 mg NO3/L)

f/2 (-N) + 0.8 % brine(110 mg NO3/L)

f/2 (-N) + 0.4 % brine(55 mg NO3/L)

f/2 (-N) + 0.2 % brine(28 mg NO3/L

f/2 (-N) + 0.04 %brine (5 mg NO3/L)

0,0

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1,0

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OD

75

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Days from Start

Chlorella (Freshwater species) Standard 3N BBM (548mg NO3/L)

100 % Brine waste(>14 g NO3/L)

3N BBM (-N) + 2 %brine (2738 mg NO3/L)

3N BBM (-N) + 0.8 %brine (1095 mg NO3/L)

3N BBM (-N) + 0.4 %brine (548 mg NO3/L)

3N BBM (-N) + 0.2 %brine (274 mg NO3/L)

3N BBM (-N) + 0.04 %brine (55 mg NO3/L)

0

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OD

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Days from start

Phaeodactylum (marine species) Standard f/2 (55 mgNO3/L)

100 % Brine waste(>4 g NO3/L)

f/2 (-N) + 2 % brine(275 mg NO3/L)

f/2 (-N) + 0.8 % brine(110 mg NO3/L)

f/2 (-N) + 0.4 % brine(55 mg NO3/L)

f/2 (-N) + 0.2 % brine(28 mg NO3/L)

f/2/(-N) + 0.04 %brine (5 mg NO3/L)

0,0

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1,0

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0 5 10 15 20 25

OD

75

0n

m

Days from start

Tetraselmis (Marine species) Standard f/2 (55 mgNO3/L)

100 % Brine Waste(>4 g NO3/L)

f/2 (-N) + 2 % brine(275 mg NO3/L)

f/2 (-N) + 0.8 % brine(110 mg NO3/L)

f/2 (-N) + 0.4 % brine(55 mg NO3/L)

f/2 (-N) + 0.2 % brine(28 mg NO3/L)

f/2 (-N) + 0.04 %brine (5 mg NO3/L)

Page 9: Session 2 15h15 norman_intercrops cambridge univ

Sock experiments • Using marine species (Phaeodactylum, Pavlova,

Tetraselmis)

• f/2 minus NaNO3 + Brine Waste (eq. 55 mg NO3/L)

• Air only or Air + 5% CO2

Page 10: Session 2 15h15 norman_intercrops cambridge univ

Winter vs Summer growth

OD at 750nm is considerably higher in

summer for all species

Phaeodactylum; Air only - 4.7 fold

Air + CO2 - 6.5 fold

Pavlova; Air only - 2.6 fold

Air + CO2 - 4.2 fold

Tetraselmis; Air only - 7.6 fold

Air + CO2 - 6.6 fold

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Days from start

Phaeodactylum

Air + CO2 - Winter

Air + CO2 - Summer

Air only - Winter

Air only - Summer

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Days from start

Pavlova

Air + CO2 - Winter

Air + CO2 - Summer

Air only - Winter

Air only - Summer

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Days from start

Tetraselmis

Air + CO2 - Winter

Air + CO2 - Summer

Air only - Winter

Air only - Summer

Page 11: Session 2 15h15 norman_intercrops cambridge univ

Nitrate added

Long-term winter growth

Page 12: Session 2 15h15 norman_intercrops cambridge univ

Phaeodactylum Tricornum (marine)

PBR experiments

• Scale up of sock experiments (100 L)

• Phaeodactylum tricornum in standard f/2 media or f/2 minus NaNO3 + brine waste

(eq. 55 mg NO3/L)

• Chlorella vulgaris in standard 3N BBM or BBM minus NaNO3 + brine waste

(eq. 548 mg NO3/L)

Chlorella vulgaris (freshwater)

Page 13: Session 2 15h15 norman_intercrops cambridge univ

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OD

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Days from start

PBR: Phaeodactylum

f/2 (-N) + 0.4 % brine (55 mg NO3/L)

standard f/2 (55 mg NO3/L)

PBR – Phaeodactylum (winter)

Page 14: Session 2 15h15 norman_intercrops cambridge univ

Scale up comparison

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Phaeodactylum (Lab)

Standard f/2 (55 mg NO3/L)

f/2 (-N) + 0.4 % brine (55 mg NO3/L)

0

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Days from start

Phaeodactylum (5L Socks)

Air + CO2 - Winter

Air + CO2 - Summer

Air only - Winter

Air only - Summer

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Days from start

Phaeodactylum (PBR)

f/2 (-N) + 0.4 % brine (55 mg NO3/L)

standard f/2 (55 mg NO3/L)

• Summer sock scale up compares well to lab experiments • Winter PBR compares well to winter socks

• Comparison of summer PBR is in progress

Page 15: Session 2 15h15 norman_intercrops cambridge univ

What next for experiments?

Laboratory; • Measurements of nitrate utilisation

• Metabolite analysis from stored algal pellets (stored at -80 °C)

PBR; • Analysis of data from Chlorella vulgaris study (freshwater species; +/- Brine in 3N BBM) • Repeat of Phaeodactylum experiment in warmer/longer day Summer months (in

progress

Page 16: Session 2 15h15 norman_intercrops cambridge univ

What have we measured?

Laboratory Socks PBR

OD at 600 & 750nm Every other day Every other day Every other day

Cell counts Every other day Every other day Every other day

Dry Weight Tfinal Tfinal Tfinal

Nitrate in media Tfinal Tfinal Tfinal

Chlorophyll Tfinal** Tfinal** Tfinal**

Lipids Tfinal** Tfinal** Tfinal**

Carbohydrate Tfinal** Tfinal** Tfinal**

pH T0 T0 & Tfinal T0 & Tfinal

Light (PAR) Continual Continual

Temperature Continual Continual

KwH Every other day Every other day Every other day

** not all experiments

Page 17: Session 2 15h15 norman_intercrops cambridge univ

Future experiments

Fragilariopsis sp. Chaetoceros wighamii

Thalassiosira gravida

Thalassiosira antarctica

Stellarima microtrias

Porosira glacialis

Growth of Polar/Antarctic species at warm temperatures

• Laboratory temperature tolerance and

optimal temperature experiments (5 & 10 °C)

• Growth comparisons with temperate species

under the same conditions

• Scale up to 10L PBR during winter

Page 18: Session 2 15h15 norman_intercrops cambridge univ

Future innovations

• Relocation within Botanic Garden to new/dedicated algae innovation glasshouse • Secured 155K from University and 100-150K from EnAlgae • Aim is to have a fully functional GM compliant medium scale algal growth facility

• Replacement of socks with purpose built tube PBRs

(capacity 10 L)

Page 19: Session 2 15h15 norman_intercrops cambridge univ

Outputs and grant awards

• Upload of data onto the EnAlgae website

• Write papers and reports for EnAlgae

• NERC SPARK award to investigate the use of algae in anaerobic digestion

• Application for Unilever/NERC impact acceleration fund (20K) to investigate ice binding proteins in polar algae

• Anaerobic digestion network (AD Nett, 60K) provision of useful empirical data

Page 20: Session 2 15h15 norman_intercrops cambridge univ

Alison Smith Beatrix Schlarb-Ridley Matt Davey Brenda Parker Ross Dennis Alex Jamieson Steve Skill