Review on Challenges and Opportunities of Poultry Production Systems, Genetic Resources, and Improvement in Rwanda

2021 ◽  
Vol 5 (4) ◽  
Keyword(s):  
Genetic Resources ◽  
Production Systems ◽  
Poultry Production ◽  
Challenges And Opportunities

Agricultural development in Israel: Challenges and opportunities for regional collaboration

1997 ◽  
Vol 12 (3) ◽  
pp. 120-123
Author(s):  
No'am G. Seligman ◽  
Abraham Blum ◽  
Joseph Morin ◽  
Jacob Amir
Keyword(s):  
Land Use ◽  
Agricultural Development ◽  
Production Systems ◽  
The United States ◽  
Annual Rainfall ◽  
Local Market ◽  
Poultry Production ◽  
The North ◽  
Regional Collaboration ◽  
Challenges And Opportunities

AbstractAgriculture in Israel is practiced throughout the country from the Arava Valley in the South, where average annual rainfall is less than 40 mm, to the Upper Galilee in the North, where annual rainfall exceeds 700 mm. Less than half the cultivated area used for field crops is irrigated. Much of the output is exponed, primarily to Europe, but some to the United States and Japan. In nonirrigated dry-farming areas, the main crops grown are wheat for grain and silage and several secondary crops, including sunflower, watermelons and hay legumes. Animal production is predominantly intensive dairying (mainly cows, but also sheep and goats), poultry production, and aquaculture, all of which use large quantities of imported feed grains. Beef production is largely from dairy bullocks, but includes an important rangeland beef sector. Problems that face Israeli agriculture in general and dryland agriculture in particular are primarily economic, including low prices for many traditional dryland crops, a small local market, and increasing input costs. The changing socioeconomic scene, reflected by decreasing employment in agriculture, has added to the problems of proper land use. There is an urgent need for more appropriate production systems and associated innovative research and development. This includes management for higher output/input ratios, conservation and enhancement of genetic resources, crop diversification, integration of crop and livestock production, and alternative land use options such as agroforestry, recreation, ecological refuges, and landscape enhancement. These challenges are common to most countries in the Middle East, and offer opportunities for regional and international collaboration to improve the sustainability of agriculture in the region.

scholarly journals Pretreatment with probiotics ameliorate gut health and necrotic enteritis in broiler chickens, a substitute to antibiotics

AMB Express ◽  
2020 ◽  
Vol 10 (1) ◽  
Author(s):  
Danish Sharafat Rajput ◽  
Dong Zeng ◽  
Abdul Khalique ◽  
Samia Sharafat Rajput ◽  
Hesong Wang ◽  
...  
Keyword(s):  
Broiler Chickens ◽  
Production Systems ◽  
Economic Losses ◽  
Necrotic Enteritis ◽  
Poultry Production ◽  
Gut Health ◽  
Growth Promoters ◽  
Broiler Performance ◽  
Antibiotic Growth Promoters ◽  
Microbial Strains

AbstractNecrotic enteritis (NE) is being considered as one of the most important intestinal diseases in the recent poultry production systems, which causes huge economic losses globally. NE is caused by Clostridium perfringens, a pathogenic bacterium, and normal resident of the intestinal microflora of healthy broiler chickens. Gastrointestinal tract (GIT) of broiler chicken is considered as the most integral part of pathogen’s entrance, their production and disease prevention. Interaction between C. perfringens and other pathogens such as Escherichia coli and Salmonella present in the small intestine may contribute to the development of NE in broiler chickens. The antibiotic therapy was used to treat the NE; however European Union has imposed a strict ban due to the negative implications of drug resistance. Moreover, antibiotic growth promoters cause adverse effects on human health as results of withdrawal of antibiotic residues in the chicken meat. After restriction on use of antibiotics, numerous studies have been carried out to investigate the alternatives to antibiotics for controlling NE. Thus, possible alternatives to prevent NE are bio-therapeutic agents (Probiotics), prebiotics, organic acids and essential oils which help in nutrients digestion, immunity enhancement and overall broiler performance. Recently, probiotics are extensively used alternatives to antibiotics for improving host health status and making them efficient in production. The aim of review is to describe a replacement to antibiotics by using different microbial strains as probiotics such as bacteria and yeasts etc. having bacteriostatic properties which inhibit growth of pathogens and neutralize the toxins by different modes of action.

scholarly journals Probiotics and Potential Applications for Alternative Poultry Production Systems

2021 ◽  
pp. 101156
Author(s):  
Rim El Jeni ◽  
Dana K. Dittoe ◽  
Elena G. Olson ◽  
Jeferson Lourenco ◽  
Nicolae Corcionivoschi ◽  
...  
Keyword(s):  
Production Systems ◽  
Poultry Production ◽  
Potential Applications

Conservation of animal genetic resources: approaches and technologies for in situ and ex situ conservation

2008 ◽  
Vol 42 ◽  
pp. 71-85 ◽  
Author(s):  
J.A. Woolliams ◽  
O. Matika ◽  
J. Pattison
Keyword(s):  
Rural Communities ◽  
Genetic Resources ◽  
Large Scale ◽  
Production Systems ◽  
Regional Distribution ◽  
Livestock Production ◽  
Ex Situ ◽  
Animal Genetic Resources ◽  
The Face ◽  
Livestock Products

SummaryLivestock production faces major challenges through the coincidence of major drivers of change, some with conflicting directions. These are:1. An unprecedented global change in demands for traditional livestock products such as meat, milk and eggs.2. Large changes in the demographic and regional distribution of these demands.3. The need to reduce poverty in rural communities by providing sustainable livelihoods.4. The possible emergence of new agricultural outputs such as bio-fuels making a significant impact upon traditional production systems.5. A growing awareness of the need to reduce the environmental impact of livestock production.6. The uncertainty in the scale and impact of climate change. This paper explores these challenges from a scientific perspective in the face of the large-scale and selective erosion of our animal genetic resources, and concludes thai there is a stronger and more urgent need than ever before to secure the livestock genetic resources available to humankind through a comprehensive global conservation programme.

scholarly journals An Overview of Health Challenges in Alternative Poultry Production Systems

2021 ◽  
pp. 101173
Author(s):  
Rim El Jeni ◽  
Dana K. Dittoe ◽  
Elena G. Olson ◽  
Jeferson Lourenco ◽  
Darren S. Seidel ◽  
...  
Keyword(s):  
Production Systems ◽  
Poultry Production

A multicriteria approach for measuring the sustainability of different poultry production systems

2012 ◽  
Vol 37 ◽  
pp. 192-201 ◽  
Author(s):  
Cesare Castellini ◽  
Antonio Boggia ◽  
Carla Cortina ◽  
Alessandro Dal Bosco ◽  
Luisa Paolotti ◽  
...  
Keyword(s):  
Production Systems ◽  
Poultry Production

scholarly journals Animal-based agriculture, phosphorus management and water quality in Brazil: options for the future

2006 ◽  
Vol 63 (2) ◽  
pp. 194-209 ◽  
Author(s):  
Francirose Shigaki ◽  
Andrew Sharpley ◽  
Luís Ignácio Prochnow
Keyword(s):  
Water Quality ◽  
Production Systems ◽  
Poultry Manure ◽  
Agricultural Runoff ◽  
Animal Production ◽  
Feed Additives ◽  
Poultry Production ◽  
The South ◽  
Transport Management ◽  
Animal Production Systems

Eutrophication has become a major threat to water quality in the U.S., Europe, and Australasia. In most cases, freshwater eutrophication is accelerated by increased inputs of phosphorus (P), of which agricultural runoff is now a major contributor, due to intensification of crop and animal production systems since the early 1990s'. Once little information is available on the impacts of Brazilian agriculture in water quality, recent changes in crop and animal production systems in Brazil were evaluated in the context of probable implications of the fate of P in agriculture. Between 1993 and 2003, there was 33% increase in the number of housed animals (i.e., beef, dairy cows, swine, and poultry), most in the South Region (i.e., Paraná, Rio Grande do Sul, and Santa Catarina States), where 43 and 49% of Brazil's swine and poultry production is located, respectively. Although grazing-based beef production is the major animal production system in Brazil, it is an extensive system, where manure is deposited over grazed pastures; confined swine and poultry are intensive systems, producing large amounts of manure in small areas, which can be considered a manageable resource. This discussion will focus on swine and poultry farming. Based on average swine (100 kg) and poultry weights (1.3 kg), daily manure production (4.90 and 0.055 kg per swine and poultry animal unit, respectively), and manure P content (40 and 24 g kg-1 for swine and poultry, respectively), an estimated 2.5 million tones of P in swine and poultry manure were produced in 2003. Mostly in the South and Southeast regions of Brazil (62%), which represent only 18% of the country's land area. In the context of crop P requirements, there was 2.6 times more P produced in manure (1.08 million tones) than applied as fertilizer (0.42 million tonnes) in South Brazil in 2003. If it is assumed that fertilizer P use represents P added to meet crop needs and accounts for P sorbed by soil in unavailable forms each year, if swine and poultry manure were to replace fertilizer, there would be an annual P surplus of 0.66 million tonnes in the South region alone. These approximations and estimates highlight that, similarly to other parts of the world, there is a potential for surplus P to quickly accumulate in certain regions of Brazil. Unless measures are developed and implemented to utilize manure P, repeated annual surpluses will create an increasingly difficult problem to solve. These measures can be grouped as source and transport management. Source management attempts to decrease dietary P, use feed additives, manure treatment and composting, as well as careful management of the rate, timing, and method of manure applications. Transport management attempts to control the loss of P in runoff from soil to sensitive waters via use of conservation tillage, buffer or riparian zones, cover crops, and trapping ponds or wetlands. These measures are discussed in the contest of Brazil's climate, topography, and land use, and how successful remediation programs may be implemented at farm and watershed level.

scholarly journals Characterization of cefotaxime resistant Escherichia coli isolated from broiler farms in Ecuador

2018 ◽  
Author(s):  
Christian Vinueza-Burgos ◽  
David Ortega-Paredes ◽  
Cristian Narváez ◽  
Lieven De Zutter ◽  
Jeannete Zurita
Keyword(s):  
Antimicrobial Resistance ◽  
Latin American ◽  
Production Systems ◽  
Diffusion Method ◽  
Poultry Production ◽  
Disk Diffusion Method ◽  
E Coli ◽  
Resistance Patterns ◽  
Latin American Countries

AbstractAntimicrobial resistance (AR) is a worldwide concern. Up to a 160% increase in antibiotic usage in food animals is expected in Latin American countries. The poultry industry is an increasingly important segment of food production and contributor to AR. The objective of this study was to evaluate the prevalence, AR patterns and the characterization of relevant resistance genes in Extended Spectrum β-lactamases (ESBL) and AmpC E. coli from large poultry farms in Ecuador. Sampling was performed from June 2013 to July 2014 in 6 slaughterhouses that slaughter broilers from 115 farms totaling 384 flocks. Each sample of collected caeca was streaked onto TBX agar supplemented with cefotaxime (3 mg/l). In total, 176 isolates were analyzed for antimicrobial resistance patterns by the disk diffusion method and for blaCTX-M, blaTEM, blaCMY, blaSHV, blaKPC, and mcr-1 by PCR and sequencing. ESBL and AmpC E. coli were found in 362 flocks (94.3%) from 112 farms (97.4%). We found that 98.3% of the isolates were multi-resistant to antibiotics. Low resistance was observed for ertapenem and nitrofurantoin. The most prevalent ESBL genes were the blaCTX-M (90.9%) blaCTX-M-65, blaCTX-M-55 and blaCTX-M-3 alleles. Most of the AmpC strains presented the blaCMY-2 gene. Three isolates showed the mcr-1 gene. Poultry production systems represent a hotspot for antimicrobial resistance in Ecuador, possibly mediated by the extensive use of antibiotics. Monitoring this sector in national and regional plans of antimicrobial resistance surveillance should therefore be considered.

scholarly journals Nigerian Fulani ecotype chickens - I – Growth performance under two production systems

2019 ◽  
Vol 46 (3) ◽  
pp. 1-9
Author(s):  
A. R. Sanusi ◽  
 S. O.  Oseni
Keyword(s):  
Growth Performance ◽  
Production System ◽  
Production Systems ◽  
Statistical Significance ◽  
Average Daily Gain ◽  
Litter Production ◽  
Poultry Production ◽  
Smallholder Farming ◽  
Significant Interaction Effect ◽  
Significant Difference

The rearing of indigenous chickens is an integral part of the smallholder farming systems in  developing countries, where they are kept by the rural poor to satisfy multiple functions Thus,  the growth performance of Nigerian Fulani ecotype chicken (NFEC) under intensive and  pastured poultry production systems was evaluated. Two hundred, day-old chicks of Nigerian  Fulani ecotype chicken (NFEC) were obtained. The chickens were separated randomly to  intensive and pastured poultry production systems at 12 weeks of age. Data on body weight  ® were taken weekly from day-old to 20 weeks. Data were analyzed using PROC GLM of SAS at statistical significance level of P<0.05. Results showed significant effect of sex of chicken  th th from the 10 to the 20 week of age (P<0.05). Significant interaction effect was observed  between sex and production system at weeks 16 and 18 (P<0.05) when the male chickens  under the intensive production system outpaced their male counterparts in the pastured  poultry. Average daily gain for the period of 20 weeks was 6.83g and 9.21g for female and  male chickens, respectively. Weight gain pattern across weeks was not uniform. There was no  significant difference in the growth rate in the two production systems (P>0.05). The study  revealed that little disparity exists in growth performance of NFEC under the pastured and  deep-litter production systems. 

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