Provisioning of live black soldier fly larvae (Hermetia illucens) benefits broiler activity and leg health in a frequency- and dose-dependent manner

•Providing living larvae to broilers is a novel enrichment approach.•Activity was increased, and leg health was improved by larval provisioning.•Largest amount and highest frequency of larvae supply had the largest effect.•Prolonged access to live larvae holds great promise for improving broiler wel...

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Bibliographic Details
Published in:Applied animal behaviour science 2020-09, Vol.230, p.105082, Article 105082
Main Authors: Ipema, Allyson F., Gerrits, Walter J.J., Bokkers, Eddie A.M., Kemp, Bas, Bolhuis, J. Elizabeth
Format: Article
Language:English
Subjects:
Activity
Black soldier fly larvae
Broiler
Enrichment
Leg health
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Summary:•Providing living larvae to broilers is a novel enrichment approach.•Activity was increased, and leg health was improved by larval provisioning.•Largest amount and highest frequency of larvae supply had the largest effect.•Prolonged access to live larvae holds great promise for improving broiler welfare. Fast-growing broilers spend most their time inactive and are therefore prone to experience leg problems. Environmental enrichment that facilitates intrinsically motivated behaviours can potentially promote activity and reduce leg problems, thereby improving broiler welfare. A promising environmental enrichment method is the scattering of desired feed items, such as insects, which are highly attractive to broilers. We studied the effect of providing live black soldier fly larvae (BSFL) scattered on the litter on broiler behaviour, leg health and performance. One-day-old male broilers were assigned to one of five treatments (eight pens/treatment, nine broilers/pen): a control without BSFL and four treatments with BSFL provided from day 1 onwards in different amounts (5 % or 10 % of estimated dietary dry matter intake; A5 and A10 respectively) and frequencies (two or four times a day; F2 and F4 respectively). All broilers were fed diets formulated to ensure a similar energy and nutrient intake. Broiler weight and leg health were determined on day 42. The behavioural time budget was determined weekly by observations for 7 h per day using 12-min scan sampling, and activity around larval provisioning was determined by 3-min scan sampling from 9 min before, until 27 min after larval provisioning on day 15/16, 29/30 and 40/41. Broilers in all larval provisioning treatments had a different behavioural time budget than controls, with significantly higher levels of foraging behaviour, walking, standing idle and general activity during at least three of the five observation days (p < 0.05 compared to controls). The increase in activity was numerically highest and most long-term in A10F4 broilers. Time spent active and in standing posture declined from week 4 onwards in A10F4, whereas for all other treatments this decline occurred already in week 2. Activity during 30 min after larval provisioning was higher for A10 than A5 treatments (p < 0.05 for all days) but overall not affected by frequency of larval provisioning. Hock burn occurred less in A10 birds than in controls (p < 0.05), and lameness occurred less in A10 and A5F4 birds than in controls (p < 0.01). Only A10
ISSN:0168-1591
1872-9045
DOI:10.1016/j.applanim.2020.105082