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Controlled release nitrogen fertilizer use inpotato production systems of eastern
Canada
Noura Ziadi , Mervin St. Luce, Athyna Cambouris and Bernie ZebarthINI2016, Melbourne , Australia
December , 2016
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Potato is the fourth most important crop worldwide after rice, wheat, and maize (He et al. 2012).
5.1 million tons
In 2008, nearly 151,100 ha of potatoes were harvested in Canada (Statistics Canada 2015).
General introduction
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Potato Production: Economically Important
(Statistics Canada)
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(Statistics Canada)
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55
Nitrogen use efficiency of potatoes < 50% (Zebarth andRosen, 2007).Nitrogen use efficiency of potatoes < 50% (Zebarth andRosen, 2007).
Cultivated in soil highly susceptible to N leaching andlow water retention capacity.Cultivated in soil highly susceptible to N leaching andlow water retention capacity.
Shallow roots.Shallow roots.
Context
Just Enough N: Equilibrium between“too much” and “too little”
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Nitrogen Uptake by Potatoes
I II III IV V
Emergence
VegetativeGrowth
TuberInitiation
Tuberbulking
Tubermaturity
Verylow
≈15% ≈30% Maximum ≈0%
Nitrogen uptake pattern varies with growth stage (Zebarth and Rosen, 2007)
Timing of N fertilizer application, growth stage, climatic conditionsand irrigation (40%) can influence N use efficiency (Cambouris et al. 2008)
Low N uptakeefficiency (< 50%).
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7
Nitrogen Best Management Practices
Goal: achieve good marketable yields (size and quality) whileminimizing losses to the environment.Goal: achieve good marketable yields (size and quality) whileminimizing losses to the environment.
↑Yield by ↑NUE.↑Yield by ↑NUE.
Synchonization of plant needs with N availiabitily.Synchonization of plant needs with N availiabitily.
Simple but elusive principle.Simple but elusive principle.
7
Sources
Rates
Genetic
Spatio-temporal
Variability
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Nitrogen Fertilization in Potatoes
N recommendations in eastern Canada: 125 – 200 kg N ha 1.
Prince Edward Island and New Brunswick: Banded atplanting.
Quebec: Split N application (sandier soils); at planting and 30DAP (at first or final hilling).
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Results from Three Studies in eastern CanadaSt. Ubalde, Quebec Ste-Catherine-de-la-Jacques-Cartier, Quebec
Fredericton, New Brunswick
NIR
NIR
IR
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Study 1: 2006 – 2008 (3 yrs)
Site: farm in St. Ubalde, Quebec
Sandy loam soil
Potato cultivars: Chieftain and Goldrush
Treatments: Control (no N fertilizer added) Calcium ammonium nitrate (CAN) (150 and 200 kg N ha-1) PCU* (150 kg N ha-1)
N was applied only at planting.
Randomized complete block design with 3 replicates.
New experimental area each year to avoid residual N effects.
*PCU: Environmentally Smart Nitrogen, Agrium Inc. Ziadi et al. (2011)
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Study 1: 2006 – 2008 (3 yrs)
Marketable yield (MY) and specific gravity
Nitrogen use efficiency (NUE, kg tubers kg-1 N):MY of N treatment – MY of control/ N applied
Anion exchange membranes: NO3 availability
Ziadi et al. (2011)
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Study 1: 2006 – 2008 (3 yrs)
Treatment Marketable yield(Mg ha 1) Specific gravity NUE
(kg tuber kg 1 N)Control 17.2c 1.070150CAN 26.0b 1.070 55.3b150PCU 29.3a 1.066 84.8a200CAN 26.3b 1.070 44.6cCultivarGoldrush 22.5 1.068 49.7bChieftain 26.8 1.070 73.5aANOVATreatment (T) < 0.001 0.14 < 0.001Cultivar (C) 0.48 0.86 < 0.001T x C 0.20 0.44 0.46
Ziadi et al. (2011)
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Study 1: 2006 – 2008 (3 yrs)
CRU (PCU) is promising N source for increasing tuber yield andNUE: better synchrony between N demand and N release.
However, PCU did not reduce residual soil NO3-N at harvestcompared to CAN.
Ziadi et al. (2011)
Residual NO3-N
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Study 2: 2008 – 2012 (5 yrs)
Farm in Ste-Catherine-de-la-Jacques-Cartier, near Quebec City
Sandy loam soil with supplemental irrigation
Potato cultivar: Russet Burbank
Factorial of 3 sources and 4 N rates + control N sources : AN, AS and PCU* + unfertilized control N rates: 60, 120, 200 and 280 kg N ha-1
N timing AN and AS: 40% at planting and 60% at hilling PCU 100% at planting
Randomized complete block design with 4 replicates*PCU: Environmentally Smart Nitrogen, Agrium Inc. Cambouris et al. (2016)
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Study 2: 2008 – 2012 (5 yrs)
Total and marketable tuber yield, tuber specific gravity and totalN uptake
In-season NO3-N leaching (soil water) with suction lysimeters
Apparent N fertilizer recovery (ANR, %):Plant N uptake in treatment – plant N uptake in control / N rate applied
Cambouris et al. (2016)
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Study 2: 2008 – 2012 (5 yrs)
Cambouris et al. (2016)
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Study 2: 2008 – 2012 (5 yrs)
Cambouris et al. (2016)
31% above normal rainfall(150 & 38% above in Juneand July, respectively).
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In season NO3-N leaching
0 15 30 45 60 75 90 105 120 135Days After Planting
1020304050
60
NO3-N
(mg
l1 )2008
At 18 DAPAN >AS > PCU
At 32 DAPAN = AS > PCU
PCU
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2010
Days After Planting
NO3-N
(mg
l1 )
01020304050607080
0 15 30 45 60 75 90 105 120 135
At 42, 68 & 72 DAPPCU > AS = AN
At 115 DAPAN > AS = PCU
At 15 DAPAN > AS = PCU
One-time application of PCU can reduce the risk of Nleaching without affecting tuber yield and quality.
In season NO3-N leaching
PCU
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Study 3: 2008 – 2010 (3 yrs)
Site: Fredericton Research Centre, New Brunswick
Loam soil
Potato cultivar: Russet Burbank
Treatments (N rate of 193 kg N ha 1): Control Diammonium phosphate + ammonium nitrate (conventional) at planting Split N application (60% at planting and 40% at hilling) PCU* at planting
Randomized complete block design with 4 replicates.
Zebarth et al. (2012)*PCU: Environmentally Smart Nitrogen, Agrium Inc.
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Study 3: 2008 – 2010 (3 yrs)
TreatmentTotalyield
(Mg ha 1)
Mean tuberweight
(g)
Specificgravity
Total Nuptake
(kg N ha 1)
Control 21.2b 146b 1.092a 77b
Conventional 36.3a 180a 1.089ab 175a
Split 34.7a 177a 1.092a 171a
PCU 36.2a 185a 1.087b 190a
ANOVAYear (Y) < 0.05 < 0.05 < 0.05 < 0.05
Treatment (T) < 0.05 < 0.05 < 0.05 < 0.05
Y x T NS NS NS NS
Zebarth et al. (2012)
N uptake numerically greater for conventional and split than PCUwhen rainfall was below normal (2008 and 2010). The reverse wastrue when rainfall was above normal (2009).
Average apparent N recover was 51% (conventional), 49% (split N)and 58% (PCU).
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ConclusionsPCU can minimize the risk of N leaching without affecting yieldand quality;
PCU is a promising N source for potato production in the humidregions of eastern Canada;
Lower N application rates for PCU may need to be evaluated(undergoing)
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Acknowledgements
GAPS and SAGES program of AAFC, and Agrium Inc. for funding.
Special thanks to Patates Dolbec Inc. and Cantin et fils farm.Staff of Quebec and Fredericton research centres of AAFC.
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