Presentación porciFORUM 2023 – Emma Baxter by agriNews

Operación Supervivencia

Neonatal Reducción de la mortalidad en sistemas de parideras alternativas

Emma Baxter

InvestigadoraexpertaenComportamientoyBienestarAnimal, Scotland’sRuralCollege(SRUC)

Talk outline

Trends in piglet mortality and litter size

Risk factors for mortality

Farrowing system regulations

Alternative systems:

Performance

How to optimise performance

Trends in live-born mortality

Trends in live-born mortality and litter size

Trends in live-born mortality and litter size - Spain

Porc Health Manag

Koketsu et al. 2021

Causes and pre-disposing risk factors for mortality

Hyperprolific sows increased farrowing duration by ~150mins (Hales et al. 2015)

IUGR reported in 10-40% of all piglets born (Edwards et al. 2019)

Reducing piglet mortality

A multifactorial problem needs multifactorial solutions

Environmental Biological

Traditional tool for reducing mortality

Sustainable practice?

40% of herd outdoors

“Phase out” (DE) by 2035

Free farrowing (i.e. zero-confinement)

10% of herd by 2021 (DK), from 2023 new builds loose lactating

“Phase out” (AT) by 2033

Temporary crating permitted

Standards for farrowing crates ruled ‘unlawful’

Phase out by 2025

Sustainable practice?

Rest of Europe?

“Commission intends to propose to phase out and finally prohibit the use of such cage systems…under conditions

(including the length of the transition period) to be determined based on EFSA opinions and an impact assessment.”

organisers expressed their ambition for a ban on cages to come into effect in 2027

EFSA Welfare of pigs on farm published August 2022

71 recommendations including use of pens not crates

What are the options for farrowing and lactation?

3.6-4.3m2 Prodromi,

4.3m2 5.5m2 6.0m2 6.5m2 7.4m2 7.6-8.9m2 7.0-8.0m2 7.0m2 20+m2

J. Baumgartner ©

How well do alternatives perform?

True comparisons very diﬃcult to summarise

Different staff, systems, different quan:ty and quality of data made available, different genotypes

Summarising data removes details explaining performance

• Some systems perform poorly, some perform well (Baxter et al. 2012, 2021, 2022)

Some studies use systems designed for TC as FF for comparison

PWM% BA PWM% BA PWM% BA Days PRE Days POST Morrison and Baxter 2012 13.5 10.8 14.9 11.2 8.6 7.9 NS Heidinger et al 2018 11.0 17.5 -1 4 5.5-7.6 *** Heidinger et al 2018 12.0 17.5 -1 6 5.5-7.6 *** Heidinger et al 2021 11.9 12.6 -1 6 5.5 NS Heidinger et al 2021 11.9 12.4 -1 6 5.5 NS Gouman et al 2018 10.5 9.8 -5 3 5.9 4.6 NS Hales et al. 2014 12.6 15.2 14.2 15.1 5.4 4.5 *** Hales et al. 2014 12.1 15.6 15.8 15.4 5.2 4.1 *** Hales et al. 2014 10.7 14.8 11.7 14.7 6.3 5.3 *** Hales et al. 2015b 17.9 17 21.4 16.8 21.4 0 4 6.3 5.3 NS Hales et al. 2016 6.5 17.0 5.5 16.5 8.9 16.8 6.3 5.3 NS Moustsen et al 2013 6.8 14.8 15.2 14.5 -5 7 4.7 *** Moustsen et al 2013 8.2 14.7 15.2 14.5 0 4 4.7 *** Moustsen et al 2013 8.2 14.6 15.2 14.5 0 7 4.7 *** Yun et al. 2014 12.8 12.2 15.1 11.3 0 7 7.0 4.8 NS Yun et al. 2014 12.8 12.2 11.3 11.7 0 7 7.0 4.8 NS Bohnenkamp et al. 2013 15.7 14.7 -3 1 17.7 4.7 NS Höbel et al 2018 18.3 15.7 19.7 16.0 -5 10 6.9 3.7 NS Höbel et al 2018 18.3 15.7 19.2 14.7 -5 10 5.5 2.7 NS Lohmeier et al 2020 16.1 18.1 20.1 16.3 -1 4 7.0-7.6 3.2-4.3 * Lohmeier et al 2020 19.3 17.7 27.5 16.8 0 0 7-7.6 3.2-4.3 NS Nicolaisen, et al. 2019 12.3 14.9 25.6 14.2 7.3 6.5 * Nicolaisen, et al. 2019 12.3 14.9 19.3 5.0 * Schnier, et al. 2019 13.2 14.8 24.4 14.2 7.3 6.5 * Schnier, et al. 2019 13.2 19.3 5.0 * Spindler et al 2018 24.2 14.9 22.5 15.1 -5 7 NS Kinane et al 2021 14.4 14.8 15.9 14.6 -1 4 5.5 3.4 NS Chidgey et al 2015 6.1 11.9 10.2 11.9 -5 4 5.9 5.0 *** Chidgey et al 2016a 10.0 11.1 11.8 10.9 -5 4 5.9 5.0 NS Condous et al 2016 15.6 11.9 15.1 12.9 -5 7 6.0 4.9 NS Condous et al 2016 15.6 11.9 17.2 12.2 -5 3 6.0 4.9 NS Condous et al 2016 15.6 11.9 19.6 12.5 0 7 6.0 4.9 * Condous et al 2016 15.6 11.9 30.9 12.1 0 3 6.0 4.9 * Olsson et al 2018 19.4 14.5 26.6 14.2 0 4 6.0 *** Lambertz et al 2015 11.4 12.8 13.3 12.8 0 7 4.6 2.8 NS Lambertz et al 2015 11.4 12.8 12.9 12.8 0 14 4.6 2.8 NS Edwards and Baxter 2015 9.0 9.6 0 0 7.6 6.9 NS King et al 2019a 12.3 13.0 -5 10 4.6 3.8 NS Loftus et al 2020 8.1 12.8 8.9 13.1 0 5 5.6 3.2 NS Ceballos et al 2021 25.9 14.5 27.8 14.4 -2 4 4.2 3.3 * Ceballos et al 2021 25.9 14.5 23.9 13.8 -2 7 4.2 3.3 NS Mack et al 2017 8.2 17.2 -5 14 4.1 3.6 *** Mack et al 2017 12.7 13.0 26.7 13.4 7.1 6.3 ** Confinement period Space (m2) Sow space Reported difference Authors and year Crate Temporary Crate Zero Confinement

Crate Baxter et al. 2021, 2022 reviews Temporary Crate Free Farrowing

How well do alternatives perform?

Pre-weaning piglet mortality – long-term data

Largest datasets from countries with commercial FF systems

Data sources: InterPig 2019; INGRIS Ǻrsstatistikk 2019

How well do alternatives perform?

Pre-weaning piglet mortality

Largest datasets from countries with commercial FF systems

Data sources: InterPig 2019; INGRIS Ǻrsstatistikk 2019

How well do alternatives perform?

Pre-weaning piglet mortality

Largest datasets from countries with commercial FF systems

Data sources: InterPig 2019; INGRIS Ǻrsstatistikk 2019

Consistent performance?

Optimising Pen design Op:mising People Op:mising Pigs

Optimising pen design

Pen size, shape and dimensions

Square or rectangular pens?

Seclusion and functional areas

Farrowing location

Hygiene

Flooring suitable for hygiene maintenance and substrate provision for nest-building

Temperature differentials

Farrowing location

Hygiene

Health, welfare, performance

Piglet protection

Creep/piglet nest accessed early

Sloped walls or rails (walls preferred)

https://www.freefarrowing.org/info/17/specific_pen_features

DETAILS MATTER!

Space

Starting point

Dictates finances

Planning permission

Herd size

Impacts on animal health, welfare and performance

Impacts on labour

What do we know about space and pig’ needs?

Socialise

• Understanding:

• What do pigs do

• When do they do it

• Why do they do it

• How do they do it •

Rest

Explore, nest

Urinate, defaecate

Farrow and nurse

Drink and eat

…

Jensen, 1988 AABS 20; Baxter et al. 2011, 2018

Quantity of space

Sow’s dimensions

üGood data on sow dimensions, static and some dynamic space

Nielsen et al., 2018 Vivi Aarestrup Moustsen, SEGES Moustsen et al. 2011 (measured in 2004) Nielsen et al. 2018 (measured in 2017) Number of sows 126 103 Body dimension Mean ± s.e. 95% percentile Mean ± s.e. 95% percentile Height, cm 90 (±0.4) 96 90 (±0.4) 96 Length, cm 193 (±0.6) 202 192 (±0.6) 203 Width, cm 44 (±0.3) 48 43 (±0.5) 48 Depth, cm 66 (±0.4) 72 65 (±0.6) 72

Quantity of space

What about turning?

Why is it important?

Quantity of space

Turning space allows pre-lying behaviour and grouping/gathering piglets before lying down

Weber et al. 2007, 2009 noted that FF pens less than 5m2 = higher mortality

Theory - Not enough space to turnaround and group piglets safely

Supported by other studies (e.g. Yun et al. 2019; EFSA 2022)

Pen size (m2) Losses Total Crushed Blackshaw et al. (1994) 3.9 ↗↗ ↗↗ Mardarowicz (2000) 4.4 → no info Haus Düsse (1995-96) 4.6 4.4 ↗ ↗ ↗ ↗ Kamphues (2004) 5.0 ↗ ↗ Stabenow (2001) 6.0 → → Fritsche and Kempkens (1999) 6.5 → no info Arkenau et al. (1999) 7.0 → ↗ Hessel et al. (2000) 7.0 → ↗ Schmid and Weber (1992) 7.0 → ↗ Weber and Schick (1996) 7.3 7.0 → → ↗ ↗ Cronin et al. (2000) 7.2 → no info Anonymous (1999) 7.6 7.8 ↘ →(↘) no info Hofstetter (1998) 5.3 - 8.1 → - ↗ ↗ Steiner (2001) >6.5 ↗ ↗ Weber et al. (2007) 482 / 173 farms 5.1 - 12.2 → ↗ ≤5m2 ≥5m2

↗ = increased → = unchanged ↘ = decreased

Reproduced from Roland Weber ©Agroscope

Implication for design choice

Too small = not enough room for sow and litter to occupy same space

Small TC operated open = high mortality

Headline result: Mortality in first 24h: 1.4% vs. 17.9%

Litter size: 18.1 vs. 19.3

Authors:

• Inadequate space to inspect and group piglets before lying down

• Large litter size

• Sow experience

https://doi.org/10.1017/S1751731118002549

TRAPEZOID 6m2 (2.5 x 2.4) SOW SPACE OPEN: ~2.86m2 SOW SPACE CLOSED: 1.76m2 Yun et al.

paper -

2019

Space and piglet mortality

Effect of space allowance of the sow on piglet mortality in pens expressed relative to the mortality in farrowing crates (= 100%).

Quantity of space

Piglet’ dimensions ü Good data on piglet dimensions

Dimensions of 4week old piglets (7kg) Moustsen and Poulson 2004 Smith and Ramirez 2021 (n=118) Length 0.56m 0.53 Width 0.13m 0.13 Depth 0.14m Not measured

Quantity of space

Piglet’ dimensions

Pens need to accommodate:

Larger litter at udder

Large litter size in pen

Functional areas

Piglet safety zones and creep

(enough for 14 piglets to weaning)

Quantity of space

Piglet’ dimensions

Improved udder access when loose lactating → longer letdown of milk (Pedersen et al. 2011)

Increased weaning weights when loose lactating in some studies (Pedersen et al. 2011; Baxter & Edwards, 2021; Nowland et al. 2018)

Piglet safety zones and creep

Larger creeps needed for larger litters, creep feeding, milk feeding etc BUT if too big huddling for neonatal piglets difficult, udder access more challenging

Implications?

Quality of space

Quality of space maybe more important than quantity (within reason)

A certain footprint may ‘tick a box’ for legislation BUT… Need to think about how the pigs will use the pen not just ‘tick a box’

Quality of space

E.g., Creep positioning

Temple et al. pigs333

Quality of space

E.g., Functional areas – encourages good animal behaviour

6m2

Moustsen et al. (SEGES Innovation). See also Andersen & Pedersen 2011

Quality of space

E.g., Functional areas – encourages good animal behaviour

Separate nesting and dunging

Temperature differentials (different flooring types)

pigs333

Quality of space

Substrate to promote nest building – implications for performance

Positive maternal behaviours are increased when nest-building is satisfied (e.g. Andersen et al., 2005; Jarvis et al. 2005; Yun et al. 2013, 2014; Swan et al. 2018; Bolhuis et al. 2018)

Reduced pre-weaning mortality (also seen in crates e.g. – Swan et al. 2018)

Reduced activity during parturition (e.g. Bolhuis et al. 2018 – loose with burlap sacs)

Increased suckling success (Yun et al. 2013, 2014) oxytocin and prolactin levels colostrum intake and piglet IgG levels

Reduced inter-birth interval (cf. EFSA, 2022)

Sows in pens had reduced inter-birth interval by 4 minutes

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Quality of space

Sloped walls for piglet protection

Sows prefer walls to rails

Sloped walls have multiple functions

Poor placement when sow in TC

Wall height?

Consider ease of management and safety (0.90-1.0m)

Too low sows might climb

Too high sows can be fearful (Hayes et al. 2021)

Note to organisers – Video will be inserted here

Quality of space

Temporary crating

Quality of fixtures and fittings influence performance, health and human-animal relationship

Interaction with management

Ergonomics are important Choose TC with easy and safe opening/closing mechanism

Note to organisersVideo will be inserted here

Temporary crating - closing and opening recommendations

Sow should move in and be unconfined

‘Shut in at feeding at night, release in the morning’

Confinement period?

Confinement to start at the end of nestbuilding until day 4

(Austria/ProSAU – Heidinger et al. 2018)

Confinement to start at day 115 of gestation until day 4

(Denmark – Hansen 2018; Hales et al. 2015)

E.M. and Edwards, S.A., 2022. Review of temporary crating of farrowing and lactating sows. Frontiers in Veterinary Science, 9, p.811810.

Delaying crate closing until farrowing is completed, results in increased neonatal piglet mortality. Large litter size increases risk further

https://doi.org/10.3389/fvets.2022.811810

Temporary crating opening and mortality

Effect of crate opening time on piglet mortality expressed relative to the mortality of fully crated sows (= 100%).

Temporary crating opening – one or all?

INDIVIDUAL AM or PM ALL

King RL, et al. 2019 Temporary crate opening procedure affects immediate post-opening piglet mortality and sow behaviour. Animal. 2019 Jan;13(1):189-197.

Optimising human inputs

Interaction with pen design

Interaction with pig temperament

Management routines not necessarily same as crates – Staff have to be happy

“A year ago, everyone was new, the previous employees were no longer here, only one had experience—but not about loose sows in the farrowing unit. We had no history.”

Anneberg and Sørensen 2020

There can be a learning curve for sows (cf. King et al. 2019) and staff (cf. Baxter and Edwards, 2021; Andersen and Ocepek, 2022)

cbs.nl

Different farms, same system, different results

Baxter, E.M. and Edwards, S., 2021. Optimising sow and piglet welfare during farrowing and lactation. In Understanding the behaviour and improving the welfare of pigs. Burleigh Dodds Science Publishing.

Influence of experience on piglet mortality

Influence of experience on piglet mortality

SowComfort Pen (7.7m2)

Andersen, I.L. and Ocepek, M., 2022. Farrowing pens for individually loose-housed sows: results on the development of the sowcomfort farrowing pen. Agriculture, 12(6),

Optimising people/human inputs

“How to guides” for FF routines (e.g. PracticalPigApp for FF, EURCAW, freefarrowing.org)

Good sow-human relationship for best results, pre-farrow routine, etc.

How to manage large litters

FF communities, ‘stable schools’, video guides

Optimising pig selection

Do piglets in free farrowing systems require different characteristics?

Probably not (selection for robustness is important in all systems)

But need more responsible litter size for all systems (EFSA, 2022 – 12-14 born alive recommended)

System design and maternal characteristics will influence piglet performance more

Optimising pig selection

Most sows can perform well (Baxter et al. in prep)

Selection for good lying behaviour

Lying control

Pre-lying behaviour

Selection for calmness of sows in the post farrowing period

Restlessness post-farrowing

Response to humans

Considerations and take home messages - 2023

Piglet mortality is a challenge in all systems

Farrowing crates are not sustainable

Deciding on a new farrowing system is multi-layered and complex

Free farrowing or Temporary crating?

Design choice and pen details will impact performance

Interaction with animal behaviour

Interaction with management

SPACE and DETAILS (Quantity and Quality)

Successfully free farrowing requires enough space to encourage zonation - good maternal behaviours, good hygiene (>7m2)

Considerations and take home messages - 2023

Design for loose with option to confine not vice versa

If confining – loose pre-farrowing, no more than 4 days post

Different management routines and mindset needed

Well designed and managed alternatives can perform as well as conventional systems

Transition period needed

Performance implications when sows (and staff) swap between systems

Sows and staff need time to learn the system → improved

performance

More information

information https://www.freefarrowing.org/resea rch/references/freedom-infarrowing-and-lactation-2021 ffl21/ www.freefarrowing.org

Acknowledgements

Vivi Moustsen, SEGES Innovation

Sandra Edwards

Johannes Baumgartner, VetMedUni, Vienna

Farmers

Funders

Older parity sows have higher mortality

Body condition, fitness, size, support?

King RL, et al. 2019 Temporary crate opening procedure affects immediate post -opening piglet mortality and sow behaviour. Animal. 2019 Jan;13(1):189-197.

Crushing: Distribution of sows that crushed

0-13 piglets

Baxter et al. in prep

Performance and experience

Baxter et al. in prep