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Rabbit breeding, although being a small sector of animal husbandry, is widespread in many areas of the world, as the rabbit is intended both for food (meat) and not food (fur) purposes. The rabbit production chain has to face various problems, mainly concerning animal health and product quality. To overcome these issues, studies using a multidisciplinary approach addressing aspects of the rabbit nutrition and feeding, with a direct impact on the rabbit farming, welfare, health, and meat quality are particularly appreciated and requested by the scientific community. This book is composed of four original papers and one review focused on different nutritional approaches. In particular a phyto-additive (thyme essential oil) and a rabbit-derived bacteriocin-producing strain (Enterococcus faecium CCM7420) with probiotic properties were investigated as new feed additives, while two types of insect fats were studied, in order to understand their effects as dietary replacements for soybean oil and their in vitro antimicrobial activities as alternative raw materials. Results collected in this book will be of particular interest for farmers and animal nutritionists working in the rabbit breeding sector

digestibility --- enzyme activity --- gut histology --- milk replacer --- rabbit --- Enterococcus faecium --- enterocin --- microbiota --- intestinal morphology --- phagocytic activity --- serum biochemistry --- meat quality --- weight gain --- thymol --- bioavailability --- antioxidant --- insect fat --- Hermetia illucens --- Tenebrio molitor --- gut microbiota --- antimicrobial effect --- rabbit feeding --- insoluble fibre --- soluble fibre --- feed efficiency --- whole body and carcass chemical composition --- energy nitrogen and mineral balance --- fibre digestibility --- mucosa morphology --- energy nitrogen and mineral retention efficiency

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Although many insects successfully live in dangerous environments exposed to diverse communities of microbes, they are often exploited and killed by specialist pathogens. In the process of the co-evolution of insects and entomopathogenic microorganisms, they develop various adaptive systems that determine the sustainable existence of dynamic host–parasite interactions at both the organismic and population levels.

field production --- sustainable management --- pest control --- soil properties --- microbial community --- biological activity --- soil DNA analyses --- α-cypermethrin --- insects --- mycoses --- spontaneous bacterioses --- fungal–bacteria interactions --- Cordyceps militaris --- antimicrobial peptides --- Woronin body --- conidiation --- stress response --- appressorium formation --- virulence --- Metarhizium robertsii --- mycotoxins --- entomopathogen --- arthropods --- CYP450 --- gut-histology --- non-toxicity --- nematophagous fungi --- cross-kingdom interactions --- food-web cycling --- phytophagous nematodes --- soilborne fungal pathogens --- entomopathogenic fungi --- resistant triatomines --- biological control --- bassianolide --- beauvericin --- limpet --- dual gene expression --- genomics --- host defense --- immunity --- next generation sequencing --- transcriptome --- two-spotted field crickets --- immune defense --- immunocompetence --- pathogens --- sex --- Tenebrio molitor --- Buxus --- invasive pests --- alkaloids --- antimicrobial activity --- Geometridae --- Hypocreales --- mortality --- moth --- larva --- pupa --- Chilo suppressalis --- isolation --- identification --- pathogenicity --- n/a --- fungal-bacteria interactions

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Although many insects successfully live in dangerous environments exposed to diverse communities of microbes, they are often exploited and killed by specialist pathogens. In the process of the co-evolution of insects and entomopathogenic microorganisms, they develop various adaptive systems that determine the sustainable existence of dynamic host–parasite interactions at both the organismic and population levels.

Research & information: general --- field production --- sustainable management --- pest control --- soil properties --- microbial community --- biological activity --- soil DNA analyses --- α-cypermethrin --- insects --- mycoses --- spontaneous bacterioses --- fungal–bacteria interactions --- Cordyceps militaris --- antimicrobial peptides --- Woronin body --- conidiation --- stress response --- appressorium formation --- virulence --- Metarhizium robertsii --- mycotoxins --- entomopathogen --- arthropods --- CYP450 --- gut-histology --- non-toxicity --- nematophagous fungi --- cross-kingdom interactions --- food-web cycling --- phytophagous nematodes --- soilborne fungal pathogens --- entomopathogenic fungi --- resistant triatomines --- biological control --- bassianolide --- beauvericin --- limpet --- dual gene expression --- genomics --- host defense --- immunity --- next generation sequencing --- transcriptome --- two-spotted field crickets --- immune defense --- immunocompetence --- pathogens --- sex --- Tenebrio molitor --- Buxus --- invasive pests --- alkaloids --- antimicrobial activity --- Geometridae --- Hypocreales --- mortality --- moth --- larva --- pupa --- Chilo suppressalis --- isolation --- identification --- pathogenicity --- n/a --- fungal-bacteria interactions