Prediction of the percentage of lean cuts and/or lean meat in pigs is
based on exploitation of some carcass measures. Apparatuses record par
ticularly backfat thickness and/or muscle thickness to estimate the am
ount of meat by means of ultrasound or optic probes or by means of a g
raduated ruler. The objective of experiments was to evaluate the level
of relationships between backfat thickness and percentage of valuable
lean cuts (spare rib, shoulder, loin and ham) in the pigs of the Larg
e White - BU (n = 522) and white Pork breed - BM (n = 178), in the cro
ssbreds Belgian Landrace x Duroc (LB x D), so called synthetic line -
SL (n = 223) and hybrids of the cross combination (BU x BM) x SL (n =
163). At the same time, regression equations were used to calculate th
e percentage of valuable lean cuts (CMC). Backfat thickness was determ
ined at three spots of the side of pork as well as the eye-muscle area
, in the pigs BU, BM and SL in test conditions (feed mix with the cont
ents of 17.2 % crude protein) after slaughter. Technological analysis
enabled to determine the percentage of valuable lean cuts, and simple
correlation coefficients were calculated between the investigated para
meters (Tabs. I to IV). Statistically highly significant relationships
were determined between CMC arid backfat thickness at the first verte
bra (r = -0.57 to -0.69). the coefficient r = 0.55 to 0.65 was calcula
ted for the relationship between the percentage of valuable lean cuts
and the eye-muscle area. This regression equation was constructed for
the BU breed (live weight 100 kg, even representation of both sexes) f
rom the given measures: Y = 58.448 - 0.4433 . HS 3, where Y - estimate
of the percentage of valuable lean cuts, HS 3 - backfat thickness at
the first sacral vertebra (mm). The equation for die BM breed was as f
ollows: Y = 55.1271 - 0.3340 HS 3 and its form for the pigs of the syn
thetic line (LB x D crossbreds) is this: Y = 57.7659 - 0.3819. HS 3. T
he estimate of the CMC percentage was most successful in the pigs with
the percentage ranging from 46 to 50 %. The reliability of prediction
was decreasing in the expressly meat types (above 52 %) and/or in fat
ty types (below 44 %). The accuracy of the calculation did not improve
when another parameter (eye-muscle area) was used. In the hybrid pigs
(live weight 113.96 kg) raised in practical farming conditions (feed
mix with the content 12.9 % CP) there were statistically significant c
orrelations between the CMC percentage and backfat thickness above the
middle of the second thoracic vertebra (r = -0.67) and between the CM
C percentage and backfat thickness above the m.g.m. (r = -0.62). The c
oefficient r = 0.48 was calculated for the relationship between the ey
e-muscle area and CMC percentage. Regression equation for the estimate
of valuable lean cuts had this form: Y = 59.1437-0.2999. HS 1, where
Y - estimate of the percentage of valuable lean cuts, HS 1 - backfat t
hickness measured above the middle of the second thoracic vertebra (mm
). The results of the experiments have confirmed that the use of carca
ss measures (particularly backfat thickness) can help to estimate the
percentage of valuable lean cuts with relatively high accuracy.