Yield stability analysis of promising pearl millet genotypes in Senegal

Genotype environment interaction in pearl millet (Pennisetum glaucum (L.) R. Br.) was studied for grain yield by growing 10 to 12 genotypes at 4 locations for 4 years in Senegal. Genotype environment interaction was present; a large portion of the interaction was accounted for by the non-linear regression on the environmental means. Although the linear component was significant, its magnitude was considerable smaller than that of the non-linear component. All the genotypes except Souna III were stable and their responses to changes in environments could be predicted. The highest yielding entry was IBV 8001 which was significantly superior to the local checks in terms of grain yield production. IBV 8001 was the most desiderable genotype as it had the highest grain yield and slope of unity, and the mean square due to deviation from regression was zer

Registration of 'ICMV 2' Pearl Millet

The Pennisetum glaucum [P. americanum] cv. ICMV2, was developed by bulking equal quantities of seed from the 3 paired crosses among the following 3 entries: a line from Nigeria resistant to downy mildew (Sclerospora graminicola), 700516; a composite from Uganda (Serere 2A); and a Cassidy dwarf population from Kansas acquired from Uganda. In 111 replicated yield trials in 19 environments (3-4 sites per year) in Senegal during 1980-84, average yield of ICMV2 was 119% that of Souna III. ICMV2 is of medium height (1.8-2.8 m) with robust stems. It flowers in 47 to 68 days and matures in 85 to 100 days. ICMV2 is resistant to Sclerospora graminicola and Moesziomyces bullatus. Ear heads are compact, making the cultivar tolerant of raghuva moth (Raghuva albipunctella). Grains are medium-sized, with a 1000-grain weight of 6.0 to 9.4 g, and have vitreous endosperm. Seed dormancy and tolerance of mold damage during ripening in humid conditions are adequat

Étude de la variabilité agromorphologique de la collection nationale de mils locaux du Sénégal

Objectif : Le mil est la première culture vivrière au Sénégal. Il joue un rôle capital dans la vie des populations rurales qui en dépendent pour leur survie (STAT/FAO/SENEGAL, 2010). Il est cultivé sur plus 60% des terres arables. Les variétés locales étaient les plus utilisées mais depuis quelques années leur survie est menacée par l'introduction des variétés améliorées.Methodology et application des résultats : Pour éviter l'érosion génétique, des missions de collecte ont été organisées en 1994 et 2006 dans les principales zones de culture du mil. Le matériel collecté est caractérisé pour faciliter leur utilisation dans les programmes de création variétale. L'objectif du présent travail est caractériser le germoplasme national mil du Sénégal pour les rendre utilisables par les sélectionneurs pour la création de nouvelles variétés hautement productives pour l'augmentation de la production céréalière et l'atteinte de la sécurité alimentaire. Pour caractériser les accessions, 12 variables sélectionnées à partir du Descripteur du mil IPGRI/ICRISAT, 1993 ont été utilisées. Un dispositif expérimental en blocs complets randomisés avec 3 répétitions a été choisi et les sites d'essais étaient Bambey, Nioro et Darou pendant les hivernages 2011 et 2012. Les analyses descriptives ou qualitatives ; statistiques simples (ANOVA) ; de la diversité (phénologique ; génétique avec la méthode de la classification ascendante (CAH), avec les composantes principales (ACP) et l'analyse factorielle discriminante (AFD)) ont été réalisées avec les logiciels Genstat Discovery4 et R. Les analyses descriptives ont montré l'existence d'une grande variabilité entre les accessions pour les caractères qualitatifs comme l'architecture de l'épi et la couleur des grains. Les analyses statistiques simples (ANOVA) ont montré qu'il existe une différence hautement significative entre les entrées et les sites. Cependant, les interactions étaient non significatives à l'exception de la floraison, de l'indice de récolte et des rendements en grains et en matière sèche. Les analyses de la diversité phénologique a permis de classer les variétés en trois groupes selon le cycle végétatif (G1 des variétés extra-précoces, G2 des cycles courts et G3 des cycles longs). La classification ascendante hiérarchique (CAH) suivant la méthode de Ward a permis d'identifier la valeur des axes et les compositions des 3 groupes y découlant (le groupe G1 compte 106 accessions, le G2 compte 129 accessions et le G3 compte 8 accessions) et de tracer le dendrogramme de filiations. L'analyse de la diversité génétique par les composantes principales (ACP) a permis de déterminer la position des accessions par rapport aux axes expliquant les variabilités inter-accessions. L'analyse de la diversité génétique par la méthode factorielle discriminante a permis de déterminer la structuration de la diversité agromorphologique et la représentation graphique des accessions suivant un plan factoriel. Les groupes ainsi formés seront convertis en des entités hétérotiques constituées de pools de gènes différents où les sélectionneurs et autres scientifiques vont puiser pour créer des variétés hautement productives et résistantes aux stress bio et abiotiques afin de nourrir les populations et de lutter contre la faim et la malnutrition

Testing of commercial inoculants to enhance P uptake and grain yield of promiscuous soybean in Kenya

The aim of this study was to assess the potential of commercial mycorrhizal inoculants and a rhizobial inoculant to improve soybean yield in Kenya. A promiscuous soybean variety was grown in a greenhouse pot study with two representative soils amended with either water-soluble mineral P or rock P to assess product performance. The performance of selected mycorrhizal inoculants combined with a rhizobial inoculant (Legumefix) was then assessed with farmer groups in three agroecological zones using a small-plot, randomized complete block design to assess soybean root colonization by mycorrhiza, nodulation, and plant biomass production in comparison to rhizobial inoculant alone or with water-soluble mineral P. Greenhouse results showed highly significant root colonization by commercial mycorrhizal inoculant alone (p < 0.001) and in interaction with soil type (p < 0.0001) and P source (p < 0.0001). However, no significant effect was shown in plant P uptake, biomass production, or leaf chlorophyll index. In field conditions, the e ects of mycorrhizal and rhizobial inoculants in combination or alone were highly context-specific and may induce either a significant increase or decrease in root mycorrhizal colonization and nodule formation. Mycorrhizal and rhizobial inoculants in combination or alone had limited effect on plant P uptake, biomass production, leaf chlorophyll index, and grain yield. Though some mycorrhizal inoculants induced significant root colonization by mycorrhizal inoculants, this did not lead to higher soybean yield, even in soils with limited P content. Our results are further evidence that inoculant type, soil type, and P source are critical factors to evaluate commercial inoculants on a context-specific basis. However, our results highlight the need for the identification of additional targeting criteria, as inoculant type, soil type, and P source alone were not enough to be predictive of the response. Without the identification of predictive criteria for improved targeting, the economic use of such inoculants will remain elusive

Technology for the prevention of antimicrobial resistance and healthcare-associated infections; 2017 Geneva IPC-Think Tank (Part 2).

Background: The high burden of healthcare-associated infections (HAIs) and antimicrobial resistance (AMR) is partially due to excessive antimicrobial use both in human and animal medicine worldwide. How can technology help to overcome challenges in infection prevention and control (IPC) and to prevent HAI and emerging AMR? Methods: In June 2017, 42 international experts convened in Geneva, Switzerland to discuss four potential domains of technology in IPC and AMR: 1) role and potential contribution of microbiome research; 2) whole genome sequencing; 3) effectiveness and benefit of antimicrobial environmental surfaces; and 4) future research in hand hygiene. Results: Research on the microbiome could expand understanding of antimicrobial use and also the role of probiotics or even faecal transplantation for therapeutic purposes. Whole genome sequencing will provide new insights in modes of transmission of infectious diseases. Although it is a powerful tool for public health epidemiology, some challenges with interpretation and costs still need to be addressed. The effectiveness and cost-effectiveness of antimicrobially coated or treated environmental high-touch surfaces requires further research before they can be recommended for routine use. Hand hygiene implementation can be advanced, where technological enhancement of surveillance, technique and compliance are coupled with reminders for healthcare professionals. Conclusions: The four domains of technological innovation contribute to the prevention of HAI and AMR at different levels. Microbiome research may offer innovative concepts for future prevention, whole genome sequencing could detect new modes of transmission and become an additional tool for effective public health epidemiology, antimicrobial surfaces might help to decrease the environment as source of transmission but continue to raise more questions than answers, and technological innovation may have a role in improving surveillance approaches and supporting best practice in hand hygiene

Broadening the infection prevention and control network globally; 2017 Geneva IPC-think tank (part 3).

Background: Healthcare-associated infection (HAI) is a major challenge for patient safety worldwide, and is further complicated by antimicrobial resistance (AMR) due to excessive antimicrobial use in both humans and animals. Existing infection prevention and control (IPC) networks must be strengthened and adapted to better address the global challenges presented by emerging AMR. Methods: In June 2017, 42 international experts convened in Geneva, Switzerland, to discuss two key areas for strengthening the global IPC network: 1) broadening collaboration in IPC; and 2) how to bring the fields IPC and AMR control together. Results: The US Centers for Disease Prevention and Control, the European Centre for Disease Prevention and Control, and the World Health Organization (WHO) convened together with international experts to discuss collaboration and networks, demonstrating the participating organizations' commitment to close collaboration in IPC. The challenge of emerging AMR can only be addressed by strengthening this collaboration across international organisations and between public health and academia. The WHO SAVE LIVES: Clean Your Hands initiative is an example of a successful collaboration between multiple global stakeholders including academia and international public health organisations; it can be used as a model. IPC-strategies are included within the four pillars to combat AMR: surveillance, IPC, antimicrobial and diagnostic stewardship, research and development. The prevention of transmission of multidrug-resistant microorganisms is a patient safety issue, and must be strengthened in the fight against AMR. Conclusions: The working group determined that international organisations should take the lead in creating new networks, which will in turn attract academia and other stakeholders to join. At the same time, they should invest in bringing existing IPC and AMR networks under one umbrella. Transmission of multidrug-resistant microorganisms in hospitals and in the community threatens the success of antimicrobial stewardship programmes, and thus, research and development in IPC should be addressed as an enhanced global priority

Balancing agricultural development and environmental objectives: assessing tradeoffs in the humid tropics.

This volume so far has presented numerous issues, opportunities, and concerns from specific national and thematic perspectives on tropical forests and deforestation. This chapter attempts to pull these together through analysis of tradeoffs across those various perspectives