Broiler hatching eggs are commonly

Broiler hatching eggs are commonly incubated for 17
to 18 d in setters, after which they are candled and
transferred to hatchers for the last 3 to 4 d of incubation.
Chicks hatch over a time window of approximately
24 to 48 h and are removed from the hatchers only
when the majority of the chicks have hatched (Careghi
et al., 2005), leading to early posthatch periods of feed
and water deprivation. Suboptimal conditions during
subsequent chick handling and transport and further
delays in chick placement, and thus first feed and water
intake, are associated with higher early mortality in
chicks and poults (Kingston, 1979; Carver et al., 2002;
Chou et al., 2004) and impaired posthatch performance
(Halevy et al., 2000; Gonzales et al., 2003). The magnitude
of the response to these adverse conditions seems
to be influenced by the moment of hatching within the
hatch window (Careghi et al., 2005) and latehatching
chicks seem to be especially vulnerable (Kingston,
1979).
An alternative system that can overcome the negative
effects of early posthatch deprivation of feed and water
is a system that combines the hatching process and the
posthatch phase, in which feed and water are provided
immediately after hatch. Such a system, named Patio
(Vencomatic BV, Eersel, the Netherlands), was developed
between 2002 and 2006 and has proved to function
as an alternative to current hatching and broodingsystems with regard to hatchability, early growth, and
livability of broiler chicks (van de Ven et al., 2009).
In contrast to conditions typically observed in hatchers
in the last phase of incubation, air temperature,
RH, and air speed are lower in the Patio system, whereas
the volume of air per egg is higher (van de Ven et al.,
2009). In the last phase of incubation, thermal conditions
can affect the development of several organs (Leksrisompong
et al., 2007; Molenaar et al., 2010a), thermoregulation
(Shinder et al., 2009), and muscle tissue
(Piestun et al., 2008) of the chick. Consequently, differences
in climate conditions between the hatcher and
the Patio system may lead to a difference in posthatch
physiology in the broiler, with possible longlasting effects
on posthatch performance. Effects of hatching in
the Patio system on broiler physiology and posthatch
growth are not known, and may vary in chicks hatching
at different points within the hatch window.
We investigated the consequences of hatching in the
Patio system vs. in a hatcher on organ development,
plasma hormone concentrations, and growth to slaughter
weight in broilers, taking into account the moment
of hatching within the hatch window.from which 24 chicks were decapitated for blood collection
and analyses of organ development. The remaining
130 chicks from each hatch group that had hatched in
the hatcher were transported to the Patio system for
30 min at an air temperature of 30°C. After arrival at
the Patio system, the 130 chicks from the hatchery and
the 130 chicks that had hatched in the Patio system
were individually marked with wing clips and placed in
the Patio system, where they were given free access to
water and feed. When the hatching process was ended,
390 chicks (130 early + 130 midterm + 130 late chicks)
from the hatcher and 390 chicks from the Patio system
were housed together, forming 1 group of 780 chicks in
a separate compartment of the Patio system. Chicks
were fed ad libitum with a commercially available feed
and were raised under standard conditions, according
to the recommendations of the breeder company, until
slaughter weight was reached at d 45.