372
Impact of reduced dietary crude protein concentration with crystalline amino acid supplementation on lactation performance and ammonia emission of sows housed under thermo neutral and thermal heat stress environments

Monday, March 16, 2015: 4:15 PM
302-303 (Community Choice Credit Union Convention Center)
David Chamberlin , Michigan State University, East Lansing, MI
Wendy J Powers , Michigan State University, East Lansing, MI
Dale W Rozeboom , Michigan State University, East Lansing, MI
Tami M Brown-Brandl , USDA, ARS, U.S. Meat Animal Research Center, Clay Center, NE
Sarah Erwin , Michigan State University, East Lansing, MI
Carsten Walker , Michigan State University, East Lansing, MI
Nathalie L. Trottier , Michigan State University, East Lansing, MI
Abstract Text:

The objective of this study was to test the hypothesis that feeding a diet containing lower dietary CP and supplemental crystalline AA compared to a diet meeting Lys requirement without supplemental AA, reduces ammonia emission, and maintains lactation performance in sows housed under thermo-neutral and thermal heat stress environments. Thirty-six, multiparus, sows were allocated to a 2 × 2 factorial arrangement of 2 temperatures, thermo-neutral (21°C; TN) and heat stress (31.5°C; HS), and 2 diets, 17.16 (Control) and 11.82% CP (Low), in a randomized complete block design. The HS sows were acclimated during late gestation to increasing temperature from 21 to 31.5 °C. During lactation, temperature for HS sows were incrementally changed (24 to 31.5°C and 31.5 to 24°C) from 0500 to 1500 and 1800 to 0500, respectively. Control diet met SID Lys requirement with no added CAA and Low diet contained added crystalline Lys, Thr, Trp, Val and Phe. Compared to Control, piglet ADG, sow feed intake (FI), true milk protein (TMP), weight loss (DBW), heart rate (HR), and respiration rate (RR) of Low sows did not differ. Compared to Control, MUN and ammonia emissions decreased for sows fed Low (P < 0.0001). Change in back fat (DBF), body temp (BT), and days post weaning to estrus (WtE) did not differ between diets. Compared to TN, DBW, HR and RR of HS sows were greater (P < 0.05). Compared to TN, piglet ADG of HS sows were less (P < 0.05).  In conclusion, feeding reduced CP diet to lactating sows improved N utilization and did not impact lactation performance of sows under either thermo-neutral or thermal heat stress environments.  These results indicate that reduction of dietary CP in conjunction with aggressive CAA supplementation may be implemented for lactating sows to mitigate ammonia emissions while maintaining lactation performance.

Item

 

Thermoneutral

Heat Stress

SEM

 

Diet

Environment

Control

Low

Control

Low

P-value

P-value

Sow FI, kg/d

5.20

5.56

4.28

4.28

0.26

0.299

0.011

Sow DBW, kg/d

-0.30

-0.63

-0.84

-0.84

0.19

0.368

0.044

Piglet ADG, g/d

263.3

279.2

236.7

235.2

9.70

0.426

0.001

Sow DBF, mm

-1.46

-2.74

-3.22

-2.17

1.01

0.680

0.445

WtE, d

7.68

7.22

7.00

5.67

1.13

0.777

0.971

HR, beats/min

69.38

69.87

89.98

91.00

7.23

0.960

0.042

RR, breaths/min

71.74

69.37

93.81

93.27

6.37

0.951

0.014

BT, °C

36.83

37.66

37.77

38.02

0.86

0.830

0.420

MUN, mg/dL

9.46

2.35

9.83

1.92

0.72

<.0001

0.979

TMP, %

4.47

4.29

4.64

4.55

4.30

0.184

0.028

Ammonia, g/d

34.2

11.2

26.8

12.9

2.9

<.0001

0.351

Keywords:

Sow, Amino Acid, Ammonia Emission