A study was conducted to test the effects of a newly-developed transport feed (TF) with a high water content on pullets of egg-laying strains transported more than 12 hours. After preliminary tests on farmed pullets, three individual transport trials were conducted, using a total of 330 animals (Lohman Brown, 16-wk-old, average body weight: 1.384 kg), transported in 48
754
721 cm (length
7width
7height), metal wire commercial crates, divided into 2 groups. Control pullets were kept without feed and water and loaded at the usual commercial stocking density (8 pullets/crate; 324 sqcm/animal), whereas the experimental group had access to TF and were loaded at the same density considering TF surface (7 pullets/crate; 324 sqm/animal). Birds were placed on commercial lorries and transported for 20 hours. Before catching and at the end of transport blood samples (15 animals/group at random) were taken from vena ulnaris superficialis and used to determine hematocrit, total protein, sodium, glucose, plasma corticosterone, heterophil / lymphocyte (H/L) ratio, reactive oxygen metabolites (ROMs), total antioxidant power (OXY-TA) and lisozyme. TF consumption as well as changes in body weight and body (cloacal) temperature were also assessed.
Mean TF consumption in experimental groups was 67.0 g/animal (12.5 g dry matter and 54.5 g water) with an energy supply of 0.206 MJ/animal. Pullets that had access to FT had lower body weight losses (6.4 vs. 5.2%; P<0.01) and a lower decrease of body temperature (-0.1 vs. -0.3\ub0C; P<0.05), compared with controls. Moreover, TF pullets showed significant lower plasma corticosterone, lisozyme, sodium and OXY-TA values as well as a reduced heterophil/lymphocyte ratio. Overall, these findings indicate that TF can reduce negative energy balance and stress in pullets during long-distance journeys
