An individual-based model simulating goat response variability and long-term herd performance
Authored by L Puillet, O Martin, D Sauvant, M Tichit
Date Published: 2010
DOI: 10.1017/s1751731110001059
Sponsors:
French National Research Agency (ANR)
Platforms:
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Model Documentation:
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Abstract
Finding ways of increasing the efficiency of production systems is a key
issue of sustainability. System efficiency is based on long-term
individual efficiency, which is highly variable and management driven.
To study the effects of management on herd and individual efficiency, we
developed the model simulation of goat herd management (SIGHMA). This
dynamic model is individual-based and represents the interactions
between technical operations (relative to replacement, reproduction and
feeding) and individual biological processes (performance dynamics based
on energy partitioning and production potential). It simulates outputs
at both herd and goat levels over 20 years. A farmer's production
project (i.e. a targeted milk production pattern) is represented by
configuring the herd into female groups reflecting the organisation of
kidding periods. Each group is managed by discrete events applying
decision rules to simulate the carrying out of technical operations. The
animal level is represented by a set of individual goat models. Each
model simulates a goat's biological dynamics through its productive
life. It integrates the variability of biological responses driven by
genetic scaling parameters (milk production potential and mature body
weight), by the regulations of energy partitioning among physiological
functions and by responses to diet energy defined by the feeding
strategy. A sensitivity analysis shows that herd efficiency was mainly
affected by feeding management and to a lesser extent by the herd
production potential. The same effects were observed on herd milk feed
costs with an even lower difference between production potential and
feeding management. SIGHMA was used in a virtual experiment to observe
the effects of feeding strategies on herd and individual performances.
We found that overfeeding led to a herd production increase and a feed
cost decrease. However, this apparent increase in efficiency at the herd
level (as feed cost decreased) was related to goats that had directed
energy towards body reserves. Such a process is not efficient as far as
feed conversion is concerned. The underfeeding strategy led to
production decrease and to a slight feed cost decrease. This apparent
increase in efficiency was related to goats that had mobilised their
reserves to sustain production. Our results highlight the interest of
using SIGHMA to study the underlying processes affecting herd
performance and analyse the role of individual variability regarding
herd response to management. It opens perspectives to further quantify
the link between individual variability, herd performance and management
and thus further our understanding of livestock farming systems.
Tags
Management
Sustainability
cattle
Regulations
Prospects
Dynamic-model
Production systems
Dairy goat
Cow
Female