Alternative Feed Source Research Articles

Structural Characterization and Bioactive Compound Evaluation of Fruit and Vegetable Waste for Potential Animal Feed Applications

Agricultural waste from the fruit and vegetable industry is used as an alternative source of animal feed, but detailed investigations are required. The aim of this work was to conduct a physico-chemical characterization, through analytical techniques, of fruit and vegetable wastes such as those of golden apples, red apples, carrots, celery, beetroots, and red potato peels. The bioactive compounds in the samples indicated a high carbohydrate content of 50.38 g/100 g in golden apples and 59.38 mg/100 g of organic acids in celery. In addition, the total phenolic content (TPC, mg gallic acid equivalent/g dry weight) varied between 3.72 in celery and 15.51 in beetroots. The antioxidant capacity values were significant. A thermal analysis showed thermal stability and weight loss, underscoring the composition of the solid samples. An infrared spectroscopy (FTIR) analysis showed C-H, O-H, C=O, and N-H functional groups in non-starchy carbohydrates, organic acids, and proteins. Microscopic techniques revealed the microstructure, particle size, and semicrystalline profile of the samples. The ultrastructure (determined via atomic force microscopy (AFM)) of celery consisted of a smooth and uniform surface with a lignin and cellulose texture. These results highlight the importance of fruit and vegetable waste as an alternative source of essential nutrients and bioactive compounds for animal feed.

Growth Performance, Nutrient Digestibility, Carcass Characteristics and Organoleptic Properties of Broiler Chicken Fed Cocoa Bean Shell

The high cost of conventional feed ingredients has forced poultry farmers to concentrate on more accessible and reasonably priced alternative feed sources having considerable nutritional potential. One of these alternative feed sources is cocoa bean shell (CBS), which is widely available, inexpensive, and nutritious. There is limited research on the application of fermentation of bovine rumen filtrate on CBS in poultry production. A feeding trial for 56 days was conducted to investigate the dietary effect of rumen filtrate fermented cocoa bean shell (RFCBS) as partial replacement for maize on the performance of broiler chickens. Fresh cocoa bean shell was mixed with rumen filtrate obtained at ratio 1:1, fermented for 24 hours and then dried. The dried fermented cocoa bean shell (FCBS) was incorporated into the experimental diets at varying levels; 0, 5, 10, 15 and 20% respectively to formulate five experimental diets. Ross 308 broiler chicks (n=150) were randomly allotted into five treatments groups of thirty (30) birds per treatment and three replicates containing ten birds each in a completely randomized design (CRD). Data on performance indices, hematological, nutrient digestibility, carcass characteristics and sensory evaluation collected during the experiment were subjected to ANOVA at α = 0.05. Results revealed that fermentation method employed had significant influence (P<0.05) on the chemical composition of cocoa bean shell used in this study. The crude protein (CBS: 8.18% – FCBS: 5.10%), ash (CBS: 10.40% - FCBS: 9.08%), nitrogen free extract (CBS: 57.64% - FCBS: 57.07%) content of the cocoa bean shell reduced after being fermented but increased its crude fibre content from 10.27% to 15.26%. It also helped to improve the phytochemical constituents of CBS. Dietary supplementation up to 10 % FCBS had comparable weight gain, feed intake and the best feed conversion ratio. Birds fed 10% FCBS based diet had improved (P<0.05) nutrient digestibility values when compared with other diets. Birds on 0 (2088.89g/b), 5 (2044.44g/b) and 10 (1944.44g/b) % FCBS had similar dressed weight but recorded significantly the highest value. Birds fed 10% FCBS based diet recorded the highest tenderness (8.33), juiciness (8.37), flavour (8.43), colour (8.30), aroma (8.37) and taste (8.00) values. Results indicated that the cost of the feed per kg (#2178.92 - 2229.23) decreased across the dietary treatments as the FCBS increased. It is concluded that FCBS can be incorporated up to 10 % in broiler chickens’ diet for better output in terms of weight gain, feed intake, feed conversion ratio, carcass trait sensory evaluation and better health status of the birds.

Utilization of Black Soldier Fly and Housefly as Biodegradation Agents of Dairy Wastes and source of Animal Feed

Accumulation of dairy wastes and shortage of nutritious feed remain the major challenges in dairy cattle production. Such wastes may sustainably be biodegraded by black soldier fly (BSF) larvae and housefly (HF) larvae into their which ca be used as animal feed. This study was done to compare the capacity of using black soldier fly larvae (BSFL) and housefly larvae (HFL) to manage dairy wastes and use of such larvae as livestock feed. Biomass reduction rate, biomass reduction index, bioconversion rate, feed conversion ratio and nutritional profile of resultant BSF and HF prepupae raised on cow dung (CD) and dairy shed effluent (DSE) were determined. In order to ascertain whether the substrates had an effect on BSFL and HFL, analysis of variance (ANOVA) was used, and multiple mean comparisons at P≤0.05 were done using the Tukey HSD post-hoc test. Housefly larvae reared on DSE had the highest biomass reduction rate and biomass reduction index, even though HFL had a shorter development time than BSFL (P≤0.05). Housefly prepupae reared on DSE had the highest crude protein content of 60.1 % of all the HF prepupae counterparts and BSF prepupae reared on DSE and CD (P≤0.05), Hence HF prepupae could be an alternative source of animal feed. Depending on the needs and purpose, utilization of fly larvae to manage dairy waste is viable and effective option

Nutrient profile, protease and cellulase activities of protein extracted from black soldier fly (Hermetia illucens) larvae reared on various substrates

The Black Soldier Fly (BSF; Hermetia illucens) larvae are recognized for their ability to convert diverse organic materials into protein-rich biomass, depending on the substrate they consume. The composition of these substrates can significantly impact the nutrient profile and enzyme activities of the resulting maggot protein extract (MPE). Therefore, this exploratory research aimed to assess the nutrient content, protease, and cellulase activity of MPE obtained from BSF maggots reared on different substrates, with a specific focus on substrates A (comprising restaurant waste and rejected milk), B (layer manure), and C (kitchen waste). The results showed that maggot meal from layer manure had the highest protein content (45.36%) and the lowest fat content (18.44%). Amino acids in maggot meal contained high levels of glutamic acid, aspartic acid, alanine, valine, leucine, and isoleucine. Lauric acids were found in maggot meal from kitchen waste (33.79%), layer manure (32.18%), and restaurant waste and rejected milk (22.94%). Maggot meal from layer manure had the highest oleic acid content (15.13%). The protein concentration of MPE from various substrates ranged from 0.56 to 0.601 mg/ml (at 60% w/v ammonium sulfate saturation) and 0.555 to 0.609 mg/ml (at 70% ammonium sulfate saturation). The protease activity of MPE from layer manure substrates exhibited optimum activity and stability in neutral to alkaline pH, with activity levels of 0.748 U/mg at pH 7.0 and pH 11.0 (at 60% w/v ammonium sulfate saturation) and 0.774 units/mg at 70% w/v ammonium sulfate saturation. The highest cellulase activity was found in MPE from kitchen waste, which remained stable at pH 5.0-11.0. In general, maggots from different substrate sources exhibited distinct nutrient profiles and enzyme activities. Protein extract from maggots grown in layer manure showed the most suitable nutrient profile for use as an alternative source of protein feed and protease enzymes.

Effect of Feed on the Growth Performance, Nutrition Content and Cost of Raising the Field Cricket (Gryllus madagascarensis) as a Sustainable Nutrient Source in Madagascar.

The field cricket, Gryllus madagascarensis, is a sustainable and nutritious food resource that has the potential to mitigate global malnutrition. Feeds provided to this cricket can influence its growth parameters, nutritional content, and the cost of raising it for food. The current study aimed to evaluate the effects of feeds formulated from weeds, agro-byproducts, and chicken feed (control) on the growth parameters and nutritional content of G. madagascarensis. The formulated feeds included CFB (25.0% protein), CFC (24.5% protein), CFD (24.0% protein), CFE (23.5% protein), CFF (22.5% protein), CFG (21.5% protein), CFH (20.0% protein), CFI (14.5% protein), and CFJ (13.5% protein), and chicken feed (CFA) (28% protein) was used as the control. The formulation of the feeds was based on the acceptability and protein content of the 12 selected weeds and agro-byproducts. Proximate, mineral, and fatty acid analyses were conducted to determine the nutrient content of each feed, as well as the crickets raised on these feeds. The fastest development time was recorded with CFE and CFC. The highest survivorship (98%) was observed in CFG, CFE, and CFC. The highest body mass (1.15 g) and body length (26.80 mm) were observed in crickets fed CFG. By comparison, crickets fed control feed averaged a body mass of 0.81 g and a body length of 23.55 mm. The feed conversion ratio for G. madagascarensis fed CFG, CFE, and CFC was 1.71. Crickets raised on CFH and CFG had the lowest cost of feeding per kg live mass gain. Crickets fed on CFF had the highest quantity of protein (67%), followed by those fed CFG (65% protein); crickets with the lowest protein content (50%) were fed CFJ. Crickets fed on CFG had the highest mineral content. Linoleic acid, oleic acid, and palmitic acid were the major fatty acids. The findings indicate that formulated feeds from weeds and agro-byproducts have great potential to be used as an alternative feed source for crickets for two reasons: their capacity to positively influence the biology and nutrition of the cricket, and they can serve as an inexpensive replacement for chicken feed.

Reproductive and Productive Performances of Small Ruminants in East Arsi Zone, Oromia Regional State, Ethiopia

The purpose of the study was to examine the reproductive and productive performances of small ruminants in the study area at Dodota Woreda in Ethiopia's Arsi Zone. The results are based on focus group discussion and a survey of 180 sample houses. Based on flock distribution, the Woreda was divided into three groups: mixed flock sites, goat dominating sites, and sheep dominating sites. In the research area, households typically kept 4.15 cattle, 6.91 sheep, 7.61 goats, 1.88 equines, and 5.85 chickens as livestock. From August to December and March to May, there was a lot of intensive lambing and kidding, with November and December appearing to be the peak months. The average litter size, age at first parturition, parturition interval and age of male at first service (months) for sheep had 1.21±0.03, 12.67±0.20, 7.55±0.15, and 6.91±0.14 respectively. For goats, the analogous values were respectively 1.52±0.04, 12.89±0.23, 7.70±0.17, and 7.55±0.21. Sheep were typically slaughtered or sold on average age of 7.43±0.23 months for males and 7.63±0.24 months for females, respectively. Goat comparable values were 8.09±0.25 and 8.30±0.26, respectively. In this study the reproductive and productive performances of small ruminants are extremely low due to different reasons. Credentials of alternative feed sources and strategic feeding management, water development, credentials of disease causes and their control strategies through appropriate policy, and information dissemination are areas of interference that can help farmers build up their flocks and increase productivity.

PSX-3 Transcriptional response to an alternative diet on liver, muscle, and rumen of beef cattle

Abstract Feed cost represents a major economic determinant within cattle production, amounting to an estimated 75% of the total variable costs. Consequently, comprehensive approaches such as optimizing feed utilization through alternative feed sources, alongside the selection of feed-efficient animals, are of great significance. Here, we investigate the effect of two diets, traditional corn-grain fed and alternative by-product based, on 14 phenotypes related to feed, methane emission and production efficiency and on multi-tissue transcriptomics data from liver, muscle, and rumen wall, derived from Nellore bulls (n = 52), 26 on each diet. To this end, diets were contrasted at the level of phenotype, gene expression, and gene-phenotype network connectivity. As regards the phenotypic level, at a P-value < 0.05, significant differences were found in favor of the alternative diet for average daily weight gain at finishing, dry matter intake at finishing, methane emission, carcass yield and subcutaneous fat thickness at the rib-eye muscle area. In terms of the transcriptional level of the 14,776 genes expressed across the examined tissues, we found 487, 484, and 499 genes differentially expressed due to diet in liver, muscle, and rumen, respectively (P-value < 0.01). To explore differentially connected phenotypes across both diet-based networks, we focused on the phenotypes with the largest change in average number of connections within diets and tissues, namely methane emission and carcass yield, highlighting, in particular, gene expression changes involving SREBF2, and revealing the largest differential connectivity in rumen and muscle, respectively. Similarly, from examination of differentially connected genes across diets, the top-ranked most differentially connected regulators within each tissue were MEOX1, PTTG1, and BASP1 in liver, muscle, and rumen, respectively. Changes in gene co-expression patterns suggest activation or suppression of specific biological processes and pathways in response to dietary interventions, consequently impacting the phenotype. The identification of genes that respond differently to diets and their associated phenotypic effects serves as a crucial steppingstone for further investigations, aiming to build upon our discoveries. Ultimately, such advancements hold the promise of improving animal welfare, productivity, and sustainability in livestock farming.

Utilization of Aquatic Plants and Microalgae for Sustainable Aquaculture Production and Potential Biotechnological Applications

Locally available feedstuffs, such as grain seed cakes, oilseeds, and vegetable waste, hold immense potential as alternative feed sources in fish farming. However, these plant-based ingredients have low crude protein content and lack essential fatty acids, which lowers palatability and feed conversion efficiencies, leading to suboptimal fish growth. Traditional feedstuffs like fishmeal and soybean meal face sustainability challenges such as local unavailability, the presence of anti-nutritional factors, and energy-intensive processing. The rising costs of commercial aqua-feeds and feed scarcity necessitate exploring alternative fish feed options. Aquatic plants like Ipomoea aquatica, Lemna minor, and Azolla pinnata, along with green and blue-green microalgae such as Chlorella spp. and Arthrospira spp. (Spirulina), are promising alternatives due to their high protein content, availability of essential omega-3 fatty acids such as EPA (Eicosapentaenoic acid) and DHA (Docosahexaenoic acid), and beneficial bioactive compounds. These plants and microalgae, with crude protein content ranging from 25% to 65%, can significantly enhance fish growth, health, and product quality by partially or entirely replacing fishmeal. Their nitrogen-fixing abilities contribute to their high protein levels. Additionally, these organisms have various biotechnological applications, including phytoremediation, Integrated Multi-trophic Aquaculture (IMTA), aquaponics, biofloc technology, and constructed wetlands. Despite their potential, challenges in scaling up and integrating these alternatives into existing systems remain. Collaborative efforts and advocacy among farmer groups are crucial for knowledge sharing and fostering sustainable biotechnological solutions. Long-term strategies should focus on upscaling local feed production and research and development to achieve self-sufficiency and cost-effective natural feed production systems in fish farming.

Recent Developments in the Application of Filamentous Fungus Aspergillus oryzae in Ruminant Feed.

The resource-intensive nature of the ruminant farming sector, which has been exacerbated by population growth and increasing pressure to reduce feed antibiotics and growth promoters, has sparked interest in looking for sustainable alternative feed sources to enhance ruminant production efficiency. Edible filamentous fungi, rich in macronutrients like proteins, offer promise in reducing the reliance on conventional protein sources and antimicrobials to improve feed quality and animal performance. The inclusion of single-cell proteins, particularly filamentous fungi, in ruminant feed has long been of scientific and industrial interest. This review focuses on the potential application of the extensively studied Aspergillus oryzae and its fermentation extracts in ruminant nutrition. It provides an overview of conventional ruminant feed ingredients, supplements, and efficiency. Additionally, this review analyzes the re-utilization of organic residues for A. oryzae cultivation and examines the effects of adding fungal extracts to ruminant feed on ruminal digestibility and animal performance, all within a circular bioeconomy framework.

The use of cheese whey powder in the cultivation of protein-rich filamentous fungal biomass for sustainable food production

Cheese whey is an industrial by-product that is generated in excess during the cheese production process in the dairy industry. Despite the potential utility of whey, it continues to pose environmental threats in the industry. This study comprehensively evaluates the utilization of two fermentation techniques (solid-state fermentation and submerged fermentation) for producing fungal biomass from cheese whey powder, employing Aspergillus oryzae, Rhizopus oryzae, and Neurospora intermedia for sustainable food production. It has been observed that submerged fermentation is more effective in increasing the protein content of whey powder compared to solid-state fermentation. The highest biomass yield was achieved with A. oryzae (5.29 g/L, 0.176 g biomass/g substrate), followed by N. intermedia (3.63 g/L, 0.121 g biomass/g substrate), and R. oryzae (1.9 g/L, 0.063 g biomass/g substrate). In the bubble column reactor, the protein content of the substrate (78.65 g/kg) increased by 165.54 and 176.69% with A. oryzae (208.85 g/kg) and N. intermedia (217.62 g/kg), respectively. This study has demonstrated that whey powder can be converted into protein-rich biomass through fungal bioconversion. The obtained biomass has the potential to be developed as an alternative food and feed source, contributing to waste management and sustainable food production.

Retention of prions in the polychaete Hediste diversicolor and black soldier fly, Hermetia illucens, larvae after short-term experimental immersion and feeding with brain homogenate from scrapie infected sheep

Finding alternative protein and lipid sources for aquafeeds is crucial for the sustainable growth of fed aquaculture. Upcycling industrial side streams and byproducts using extractive species can reduce waste and help reduce the sector's dependence on fish meal and fish oils. Polychaete worms (Hediste diversicolor) and black soldier fly (Hermetia illucens) larvae (BSFL) are promising candidates for converting waste materials into valuable protein and lipid sources. However, further research and evaluations are needed to ensure the safety and regulatory compliance of these alternative feed sources, especially regarding prions spreading potential in the unlikely case that prions would be introduced in the value chain via feedstocks. In the present investigation, BSFL and juvenile polychaetes that had received a massive dose of scrapie prions through immersion and oral inoculation were found to harbour detectable prions using an ultrasensitive amplification method known as PMCA. This observation suggests that both H. diversicolor and BSFL have the potential to serve as mechanical vectors for prions diseases. However, it is important to note that insects, lacking the prion protein gene, are incapable of propagating prions. Therefore, the quantity of prions present in the larvae will inevitably be lower than the amount of prions they encountered. This is the first study to report on the fate of prions through ingestion by these marine and terrestrial invertebrate species.

Dietary Pediastrum boryanum microalgal extract improves growth, enhances immunity, and regulates immune-related genes in Nile tilapia

BackgroundIdentifying alternative sustainable feed sources with high nutritional values is crucial for the future of environmentally and socially responsible aquaculture. In this regard, microalgae have been proven to have positive effects on fish health, which overwhelmed our interest in this study.MethodsPediastrum boryanum (P. boryanum) was incorporated into Nile tilapia feed at concentrations of 0, 0.75, and 1.5 mg/kg, as control, PbExt0.75, and PbExt1.5 groups to assess its effects on growth and biochemical indices, oxidant/antioxidant activities, immune and stress-related gene expression, and intestinal morphology.ResultsAfter 8 weeks, fish fed P. boryanum supplemented feed exhibited significant increases in final weight, length, condition factor, body weight gain, and specific growth rate, while the spleen-somatic index (SSI) and hepatosomatic index (HSI) showed no significant differences compared to the control group. Dietary P. boryanum supplementation also enhanced IgM levels and lysozyme activity, along with no marked effect on markers of liver function enzymes (alanine aminotransferase/ALT and aspartate aminotransferase/AST) or protein status (total protein and albumin). Furthermore, P. boryanum addition increased the activity of superoxide dismutase (SOD), catalase (CAT), and reduced glutathione (GSH) enzymes, highlighting its antioxidant potential, whereas malondialdehyde (MDA) concentrations showed no significant differences among the groups. Gene expression analysis revealed that tumor necrosis factor-α (TNF-α), interleukin-10 (IL-10), and transforming growth factor-β1 (TGF-β1) expression notably increased in groups fed P. boryanum containing feed, while no significant difference was observed in hepatic Heat Shock Protein 70 (HSP70) mRNA expression. Histopathological examination revealed no adverse effects of P. boryanum supplementation on the liver, spleen, or intestinal tissues. Villous height and villous surface area were notably increased in the high P. boryanum supplementation group, suggesting improved intestinal integrity and nutrient absorption.ConclusionDietary P. boryanum supplementation can potentially improve growth performance, immune response, antioxidant status, and intestinal health of Nile tilapia, making it a promising candidate for sustainable aquaculture.

Determination of nutritional value and methane production potential of styrax tree (Styrax officinalis L.) leaves

This study aimed to determine the effect of nutritional values of the “styrax tree” (Styrax officinalis L.) on in vitro gas production, organic matter digestibility (OMD), and metabolic energy (ME) content. In this study, styrax leaf samples were collected for analysis in three different periods: May, July and September. According to the analysis results, crude ash (CA), dry matter (DM), crude fat (CF), acid detergent fiber (ADF) values, and neutral detergent fiber (NDF) increased in September compared to May and July. In September, compared to May, CA has increased by 23 %, DM by 64 %, CM by 30.5 %, ADF by 9.8 %, and NDF by 9.8 %. During the vegetation period, there was an increase in dry matter content in parallel with maturation. The dry matter content of Styrax tree leaves (STL) increased in May (30 %), July (40 %) and September (50 %). Crude protein amounts were found 19 % in May, 17 % in July, and 15 % in September. As the STL grows, decreases in CP, which plays a role in plant growth, and increases in the cell membrane were observed. The CF content in STL changed to 3.2 %, 4.4 %, and 4.3 % in May, July, and September, respectively, with the highest value determined in July and very close to the September value. CA content in styrax tree plants varied by 8.58 % in May, in July by 9.86 %, and in September by 10.56 %. As the amount of dry matter increased according to the periods, the amount of CA also increased. NDF and ADF levels increased in parallel with the vegetation period's development in STL. NDF was found to be 37.5 %, 39.0 %, and 41.5 % according to the periods. ADF amount was found 27 % in May, 28.5 % in July, and 30 % in September. Metabolic energy varied between 8.86 and 10.06 (MJ/kg KM) depending on the periods. When organic matter digestion levels were examined, it was seen that the highest OMD was in July with 58.71 %. Gas production was determined by incubations of 0, 3, 6, 12, 24, 48, 72, and 96 h, and the maximum gas measurement value was in September, July, and May, respectively. As a result of the study, STL can be a good alternative feed source for ruminants when adequate amounts of high-quality feed materials cannot be provided.

Silage Quality Characteristics of Quinoa Varieties Grown in Different Row Spacings

Changing climatic conditions, agricultural lands becoming barren, losing their qualities and decreasing feed resources have led to the search for alternative feed resources. Quinoa (Chenepodium quinoa Willd.) is increasing in importance as an alternative feed source because it is a plant resistant to arid, salty and cold conditions. Quinoa plant can be considered as an alternative plant for silage, which is an important feed source for animals. In this study, the effects of sowing Cherry Vanilla and Read Head quinoa varieties at 4 different row spacings (17.5, 35.0, 52.5, 70.0 cm) on silage quality were investigated. In the research, pH, dry matter ratio, fleig score, ammonia production, sensory analyses, lactic acid, acetic acid, propionic acid and butyric acid contents of quinoa silage were determined. While the effect of row spacing on dry matter ratio, ammonia production, sensory analysis, lactic acid, acetic acid, propionic acid and butyric acid ratios was found to be significant, its effect on pH value was insignificant. The quinoa varieties used in the research had a significant effect on the dry matter ratio and propionic acid content. In the light of the results obtained from the research, it was concluded that in order to obtain a quality quinoa silage, the plants should be sown in 52.5 cm row spacing and the Cherry Vanilla variety should be preferred.

Transcriptional response to an alternative diet on liver, muscle, and rumen of beef cattle

Feed cost represents a major economic determinant within cattle production, amounting to an estimated 75% of the total variable costs. Consequently, comprehensive approaches such as optimizing feed utilization through alternative feed sources, alongside the selection of feed-efficient animals, are of great significance. Here, we investigate the effect of two diets, traditional corn-grain fed and alternative by-product based, on 14 phenotypes related to feed, methane emission and production efficiency and on multi-tissue transcriptomics data from liver, muscle, and rumen wall, derived from 52 Nellore bulls, 26 on each diet. To this end, diets were contrasted at the level of phenotype, gene expression, and gene-phenotype network connectivity. As regards the phenotypic level, at a P value < 0.05, significant differences were found in favour of the alternative diet for average daily weight gain at finishing, dry matter intake at finishing, methane emission, carcass yield and subcutaneous fat thickness at the rib-eye muscle area. In terms of the transcriptional level of the 14,776 genes expressed across the examined tissues, we found 487, 484, and 499 genes differentially expressed due to diet in liver, muscle, and rumen, respectively (P value < 0.01). To explore differentially connected phenotypes across both diet-based networks, we focused on the phenotypes with the largest change in average number of connections within diets and tissues, namely methane emission and carcass yield, highlighting, in particular, gene expression changes involving SREBF2, and revealing the largest differential connectivity in rumen and muscle, respectively. Similarly, from examination of differentially connected genes across diets, the top-ranked most differentially connected regulators within each tissue were MEOX1, PTTG1, and BASP1 in liver, muscle, and rumen, respectively. Changes in gene co-expression patterns suggest activation or suppression of specific biological processes and pathways in response to dietary interventions, consequently impacting the phenotype. The identification of genes that respond differently to diets and their associated phenotypic effects serves as a crucial stepping stone for further investigations, aiming to build upon our discoveries. Ultimately, such advancements hold the promise of improving animal welfare, productivity, and sustainability in livestock farming.

Designing and Analyzing Properties of Socio-Culture and Perception from Livestock Farmers: An Evidence in Utilizing Oil Palm Plantation Land-Use of West Papua

This study aims to examine the socio-cultural productivity and perceptions of farmers in the utilization of free-rearing land in the oil palm plantation area in Manokwari. The research was conducted using survey methods and structured interviews with breeders who indulge livestock on oil palm plantations and other grazing lands. The results of the study show that socio-cultural productivity in the utilization of free-rearing land in the oil palm plantation area in Manokwari is still low. Factors such as the lack of knowledge and skills of farmers in managing free-rearing land and limited access to resources and information are the main obstacles in increasing productivity. Breeders' perceptions of the use of free-rearing land also vary. Some farmers see wasteland as an alternative feed source with the potential to improve livestock health and productivity, while others see it as an unproductive area and tend to be neglected. This perception is influenced by factors such as education level, farmer experience, and support from related parties. In order to increase socio-cultural productivity and utilization of wasteland in oil palm plantations, comprehensive efforts are needed. Increasing the knowledge and skills of breeders in managing free-rearing land, better access to resources and information, as well as the active role of related parties in providing assistance and support to breeders are key factors in achieving this.

Are Cover Crops a Good Alternative Feed Source for Dairy Cattle?

Are Cover Crops a Good Alternative Feed Source for Dairy Cattle?

Evaluating the Efficiency of Black Soldier Fly (Hermetia illucens) Larvae in Converting Mackerel Head Waste into Valuable Resources.

The seafood processing industry generates significant waste, including mackerel heads (MH), constituting 20-32% of total waste. This study explored the potential of utilizing MH as a feed source for black soldier fly larvae (BSF larvae). BSF larvae are known for their ability to efficiently convert organic materials into nutrient-rich biomass. Five concentrations of MH (0, 10, 20, 30, 40, and 50% in chicken feed) were fed to BSF larvae for eight days. After harvesting, their growth, MH conversion efficiency, nutritional content, and heavy metals reduction potential were measured. BSF larvae showed optimal growth when fed with a feed containing 20% MH, resulting in a 14.36-fold increase in weight compared to the control group, as determined by the Fisher's Least Significant Difference Test. BSF larvae maintained a survival rate of 99.33%. With the lowest feed conversion ratio (FCR) of 2.09 at 20% MH, feed efficiency was improved by up to 65.15%, and feed reduction up to 73.53%. MH enhanced lipid and protein content in BSF larvae. Furthermore, BSF larvae in this study showed higher polyunsaturated fatty acids (PUFA), including eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), as well as other amino acids which are required for breeding animals. The current study highlights the potential of MH as a feed source for BSF larvae, improving nutritional biomass. It also suggests BSF larvae as an eco-friendly option for handling seafood processing waste and as an alternative feed source for animals.

Performance and Cost Benefit of Organic Acid Supplementation in Broiler Diets Containing Graded Levels of Soaked &lt;i&gt;Balanite Aegyptiaca&lt;/i&gt; Fruit Meal

Balanite aegyptiaca fruit meal (BAFM) is an alternative feed source that requires processing and supplementation with additives to enhance its utilization in broiler diets. A total of one hundred and twenty (120) day old broiler chickens were used for the study. They were allotted to four experimental treatments each replicated thrice with ten (10) chickens per replicate in a completely randomized design. Raw BAFM fruit was processed by soaking for 24 hours, dried and incorporated in the diets at 0.00, 2.50, 5.00 and 7.50% in T1, T2, T3 and T4 respectively. Acidifier (Fysal®) was supplemented in the diets of T2-T4 at 0.1%. The study monitored the following parameters; initial weight, final weight, weight gain, feed efficiency, and mortality rate. Cost benefit was also determined at the end of the study. Results obtained indicate that growth performance was poorer in chickens fed the control diet compared to others. Starter-phase chicks fed diets with the highest BAFM dietary inclusion level (7.5%) exhibited enhanced weight gain, improved feed conversion efficiency, and reduced feed cost per unit weight gain, while the pooled performance showed that the parameters declined at 7.5%. Cost benefit showed that feed cost per kilogram gain reduced up to 5% inclusion level of BAFM in the diets while it slightly increased at 7.5%, though better than the control group. At 5% dietary inclusion of BAFM with acidifier supplementation, feed cost per kilogram gain reduced by ₦95.22 (18.49%). Based on the results obtained in this study, it was concluded that soaked BAFM and acidifiers are good supplements that can be utilized in broiler diets at 5.0% and 0.1% respectively.

Influence of Fermented Mulberry Leaves as an Alternative Animal Feed Source on Product Performance and Gut Microbiome in Pigs

Mulberry leaves are rich in nutrients but contain anti-nutrient factors that hinder their digestion and absorption. Feeding animals with mulberry leaves directly could harm their health. The microbial fermentation of mulberry leaves could reduce their anti-nutritional factors’ content and improve their nutritional value. Sequencing and analyzing mulberry leaves before and after fermentation showed that fermentation increased the relative abundance of Pediococcus, Bradyrhizobium, Hydrotalea, and Rhodanobacteria, and decreased that of Enterobacter. Fermentation improved the quality of mulberry leaves by rebuilding the bacterial community. Finishing pigs were raised on fermented mulberry leaves (FML), and their carcass performance, meat quality, economic benefits, and gut microbiome were evaluated. FML had no negative impact on pig carcass performance, meat quality, and antioxidant capacity, and could somewhat improve the economic benefits. FML decreased the relative abundance of Proteobacteria in the colon and Streptococcus in the feces, and increased that of Actinobacteria (cecum, colon, feces) and Prevotella (colon). The gut core microorganisms in the FML group were mainly enriched with Actinobacteria, Bifidobacterium, Bifidobacteriaceae, Bifidobacteriales, and other beneficial microorganisms. Dietary FML reduced ammonia, indole, and skatole contents in the feces. In conclusion, FML reshaped the gut microbiota without negatively affecting pig product performance, produced cleaner waste, and improved environmental protection and sustainability, making it an attractive prospective feed for pigs.