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Agroecological Zones (agroecological + zone)
Selected AbstractsVarietal Differences in Development of Maize (Zea mays L.) Seedlings on Compacted SoilsJOURNAL OF AGRONOMY AND CROP SCIENCE, Issue 3 2001L. O. Soyelu Differences among open-pollinated tropical maize (Zea mays L.) varieties in seedling development and establishment on compacted soils were studied. Soil dry density was used as an index of compaction. Three soil compaction levels and 12 traits associated with development and establishment of maize seedlings were investigated. A control (without compaction) was also included. Varietal differences were observed for most traits measured. Genetic differences for seedling development on compacted soil were detected. Varietal differences contributed about three times the contribution of compaction to total variability in the traits. Better seedling development and performance were obtained in moderately compacted soil than in the control. Shoot length, shoot dry weight and per cent dry matter in roots were good indicators of the tolerance of maize seedlings to compaction. A physiological strategy for maize seedling establishment on compacted soil was proposed. The implications of the results for seed testing were also highlighted. It was concluded that consideration should be given to the genotype of maize destined for use in ecologies prone to high soil densities. All varieties of maize grown in an agroecological zone could be screened to identify genotypes tolerant of higher soil densities. The seeds could then be multiplied and distributed to farmers. Sortenunterschiede in der Entwicklung von Mais (Zea mays L.)-Sämlingen in verdichteten Böden Sortenunterschiede der Sämlingsentwicklung und des Aufwuchses wurden in verdichteten Böden bei fremdbestäubenden tropischen Mais (Zea mays L.)-Sorten untersucht. Die Bodentrockendichte wurde als Index für die Verdichtung verwendet. Drei Verdichtungsstärken und zwölf Behandlungen im Zusammenhang mit der Entwicklung und dem Anwuchs von Maissämlingen wurden untersucht. Eine Kontrolle (ohne Bodenverdichtung) wurde berücksichtigt. Sortenunterschiede wurden für die meisten Eigenschaften gemessen. Genetische Differenzen der Sämlingsentwicklung in verdichteten Böden konnten beobachtet werden. Sortendifferenzen trugen etwa dreifach im Vergleich zur Bodenverdichtung im Hinblick auf die Gesamtvariabilität der Eigenschaften bei. Bessere Sämlingentwicklung und Sämlingsleistung wurden an moderat verdichteten Böden im Vergleich zur Kontrolle beobachtet. Die Sprosslänge, das Sprosstrockengewicht und die Trockenmasse prozent in Wurzeln gaben gute Hinweise hinsichtlich der Toleranz der Maissämlinge gegenüber Bodenverdichtung. Eine physiologische Strategie für die Maissämlingsentwicklung in verdichteten Böden wird vorgeschlagen. Die Bedeutung der Ergebnisse für Samentestzwecke wurde betont. Es wird angenommen, dass Genotypen für den Anbau in ökologischen Bedingungen, die starke Bodenverdichtungen aufweisen, berücksichtigt werden sollten. Da viele Maissorten in agroökologischen Gebieten angebaut werden, sollten diese getestet werden, um Genotypen mit Toleranz gegenüber stärkerer Bodenverdichtung zu identifizieren. Diese Samen könnten dann vermehrt und an Landwirt abgegeben werden. [source] Region-specific assessment of greenhouse gas mitigation with different manure management strategies in four agroecological zonesGLOBAL CHANGE BIOLOGY, Issue 12 2009SVEN G. SOMMER Abstract Livestock farming systems are major sources of trace gases contributing to emissions of the greenhouse gases (GHG) nitrous oxide (N2O) and methane (CH4), i.e. N2O accounts for 10% and CH4 for 30% of the anthropogenic contributions to net global warming. This paper presents scenario assessments of whole-system effects of technologies for reducing GHG emissions from livestock model farms using slurry-based manure management. Changes in housing and storage practice, mechanical separation, and incineration of the solid fraction derived from separation were evaluated in scenarios for Sweden, Denmark, France, and Italy. The results demonstrated that changes in manure management can induce significant changes in CH4 and N2O emissions and carbon sequestration, and that the effect of introducing environmental technologies may vary significantly with livestock farming practice and interact with climatic conditions. Shortening the in-house manure storage time reduced GHG emissions by 0,40%. The largest GHG reductions of 49 to, in one case, 82% were obtained with a combination of slurry separation and incineration, the latter process contributing to a positive GHG balance of the system by substituting fossil fuels. The amount and composition of volatile solids (VS) and nitrogen pools were main drivers in the calculations performed, and requirements to improve the assessment of VS composition and turnover during storage and in the field were identified. Nevertheless, the results clearly showed that GHG emission estimates will be unrealistic, if the assumed manure management or climatic conditions do not properly represent a given country or region. The results also showed that the mitigation potential of specific manure management strategies and technologies varied depending on current management and climatic conditions. [source] Species diversity of lepidopteran stem borer parasitoids in cultivated and natural habitats in KenyaJOURNAL OF APPLIED ENTOMOLOGY, Issue 6 2009D. M. Mailafiya Abstract Field surveys were conducted during 2005 to 2007 to assess the species diversity of stem borer parasitoids in cultivated and natural habitats in four agroecological zones in Kenya. In total, 33 parasitoid species were recovered, of which 18 parasitized six stem borer species feeding on cereal crops, while 27 parasitized 21 stem borer species feeding on 19 wild host plant species. The most common parasitoids in cultivated habitats were Cotesia flavipes Cameron, Cotesia sesamiae (Cameron), Pediobius furvus Gahan and the tachinid Siphona sp., whereas in natural habitats, Siphona sp. was the most common. The majority of parasitoids were stenophagous species; only five species ,Cotesia sp., Enicospilus ruscus Gauld and Mitchell, Pristomerus nr. bullis, Sturmiopsis parasitica (Curran) and Syzeuctus ruberrimus Benoit , were monophagous. In both cultivated and natural habitats, parasitoid species diversity was highest on the most dominant stem borers Busseola spp. and Chilo spp. On cereal crops, parasitoid diversity was highest on maize and among wild host plants, it was highest on Setaria spp. The ingress-and-sting attack method was the most common strategy used by parasitoids in both habitats. In all agroecological zones, parasitoid species diversity was significantly higher in natural than in cultivated habitats. Furthermore, the majority of parasitoid species were common to both cultivated and natural habitats. It was concluded that natural habitats surrounding cereal crops serve as refugia for sustaining the diversity of stem borer parasitoids from adjacent cereal fields. [source] Eucalyptus infestation by Leptocybe invasa in UgandaAFRICAN JOURNAL OF ECOLOGY, Issue 3 2009Philip Nyeko Abstract Very little is known about Leptocybe invasa Fisher & LaSalle, a new fast-spreading alien pest infesting Eucalyptus in several countries. This study examined L. invasa infestation on Eucalyptus germplasms in different agroecological zones of Uganda. The incidence and severity of the pest infestation were higher in hotter and drier agroecological zones than in cooler and wetter zones. There were direct negative relationships between altitude and L. invasa infestation on Eucalyptus species. No infestation was observed on any Eucalyptus species in stands at altitudes ranging from 1938 to 2452 (the maximum encountered) m above sea level. Leptocybe invasa infestation occurred on all Eucalyptus species encountered (Eucalyptus grandis, Eucalyptus camaldulensis, Eucalyptus saligna, Eucalyptus robusta), except Eucalyptus maidenii that escaped attack because it was located outside the ecological range of the insect. The incidence and severity of L. invasa infestation was generally higher on clonal hybrids E. grandis × E. camaldulensis than on E. grandis × Eucalyptus urophylla. Research on host germplasms, L. invasa biology and ecology, impact of the pest infestation and possible control strategies are suggested to facilitate the development of sustainable management strategies. Résumé On sait très peu de choses sur Leptocybe invasa Fisher & LaSalle, une nouvelle espèce nuisible très invasive qui infeste les Eucalyptus dans plusieurs pays. Cette étude a examiné l'infestation par L. invasa des germoplasmes d'Eucalyptus dans différentes zones agroécologiques d'Ouganda. L'occurrence et la gravité de l'infestation par cette espèce nuisible étaient plus élevées dans les zones agroécologiques plus chaudes et plus sèches que dans les zones plus fraîches et plus humides. Il y avait des relations négatives directes entre l'altitude et l'infestation des espèces d'eucalyptus par L. invasa. On n'a observé aucune infestation de quelque espèce d'eucalyptus que ce soit dans les plantations allant de 1938 à 2452 mètres d'altitude (la plus haute altitude à cet endroit). L'infestation par Leptocybe invasa touchait toutes les espèces d'eucalyptus rencontrées (Eucalyptus grandis, E. camaldulensis, E. saligna et E. robusta) à l'exception d'E. maidenii qui a échappéà cette attaque parce qu'il était situé en dehors de l'aire de dispersion écologique de cet insecte. L'occurrence et la gravité de l'infestation par cette espèce nuisible étaient plus élevées chez les hybrides clonés d'Eucalyptus grandis ×E. camaldulensis que chez les hybrides E. grandis × E. urophylla. Des recherches sur les germoplasmes hôtes, sur la biologie et l'écologie de L. invasa, sur l'impact de l'infestation par cette espèce nuisible et sur d'éventuelles stratégies de contrôle sont suggérées ici pour faciliter le développement de stratégies de gestion durables. [source] Impact of shade on the spatial distribution of Sahlbergella singularis in traditional cocoa agroforestsAGRICULTURAL AND FOREST ENTOMOLOGY, Issue 1 2010Régis Babin 1Shade management is commonly considered to be an effective pest management strategy for cocoa mirids, yet shade management recommendations are not based on extensive knowledge of the mirid ecology in traditional cocoa agroforests. 2The main objectives of the present study were an assessment of the impact of shade on the spatial distribution of mirid populations and thus the evaluation of shade management strategies. 3Mirid densities were measured and shade was characterized for three plots located in three different agroecological zones in the Centre region of Cameroon. Mirid densities generally followed a negative binomial law. Geostatistical procedures were used to characterize spatial distribution of mirid density. Light conditions were assessed using hemispherical photography. 4Populations of Sahlbergella singularis were highly aggregated in the plots. Semivariance analysis and kriging visualized the spatial dependence of mirid densities. Clearly distinguishable mirid pockets of 20,30 adjacent infested cocoa trees were identified in two of the three plots. 5The high diversity of shade tree species and the large variability in density and size of shade trees resulted in a considerable heterogeneity of plot light conditions. Percentage transmitted light varied in the range 9.4,80.1% in the most heterogeneous plot. 6For two of the three plots, mirid pockets were aggregated in those areas where light transmission was highest. In the third plot, relatively high mirid densities and the presence of an alternative host resulted in a more homogeneous distribution. The importance of these findings for improved mirid control is discussed. [source] | |||||||||||||