Evaluation of treatments with hot water,chemicals and ventilated containers to reduce microbial spoilage in irradiated potatoes

Summary Potatoes irradiated to control sprouting were dipped in: hot water (56°C, 5 min; 52°C, 10, 15 and 20 min); cold (25°C, 5 min) or hot (56°C, 5 min) salicylic acid (1000 and 2000 ppm); or sodium hypochlorite (0.1 and 0.2%, 5 min); or dusted with salicylic acid (1 and 2%), to try to reduce the incidence of bacterial soft rot (Erwinia sp.) during controlled temperature (10°C, 15°C) and ambient temperature (20–34°C) storage. All treatments, particularly hot water and hot salicylic acid dip, increased microbial spoilage, possibly as a result of handling damage during the treatments combined with the inhibition of wound periderm formation as a result of irradiation. Storing irradiated tubers in well ventilated containers reduced soft rot compared to storing them in sacks and after 6 months storage at 10, 15 and 20–34°C, 95, 90 and 77% respectively were healthy and marketable.     

Morphological diversity,phenotypic and genotypic variance and heritability estimates in Moringa oleifera Lam.: a less used vegetable with substantial nutritional value

Genetic Resources and Crop Evolution - Moringa oleifera Lam. (common name: drum stick, horseradish tree) belongs to the monogeneric family, Moringaceae. Immature pods, fresh leaves and flowers of...     

Productivity,soil fertility and soil erosion under cassava based agroforestry systems

The interactions between component species in three-tier agroforestry systems were studied on sloping laterite soils of South India for three years. The wood yield of Eucalyptus was found to increase in association with the intercrops, with cassava + groundnut resulting in the best growth of Eucalyptus. Green forage yield of Leucaena was adversely affected by cassava but was improved by inclusion of a short duration seasonal crop. Both spread and mean length of lateral roots of Eucalyptus and Leucaena were restricted by cassava intercropping. Both the tree species were found to reduce the tuber yield of cassava and also the pod yield of both the seasonal crops when grown in association. Monocropping with cassava was found to improve the fertility and an increase in phosphorus and potassium contents of the soil was observed when grown in association with Eucalyptus and Leucaena. Soil fertility fell considerably after three years of cultivation of the tree species. The nutrient uptake by cassava was low when grown in association with perennial species. Both run off and soil loss were effectively reduced when cassava was grown in staggered mounds under Eucalyptus and Leucaena.     

Effect of temperature on the development, growth, survival and settlement of green mussel Perna viridis (Linnaeus, 1758)

The effect of temperature on the development, growth, survival and settlement of Perna viridis was studied under controlled conditions to provide information needed for the development of commercial hatchery technology for green mussel P. viridis. Total mortality of the larvae occurred after 24 h at temperatures of 33°C and 35°C. At 24°C, larvae took longer to settle than at temperatures of 27°C, 29°C and 31°C. For optimum larval development (8–13 h), growth (17.2±0.84 μm day^–1) and survival (55.2±0.84%), a hatchery rearing temperature of 31°C is required. For settlement no significant difference was seen between the percentage settlement at 29°C (49.3±3.34%) and 31°C (45.8±1.76%). However, the process of settlement began and ended earlier at 29°C (from 15 to 18 days) than at 31°C (from 18 to 20 days). Thus for larval settlement a temperature of 29°C is recommended.     

Are women really more talkative than men?

Women are generally assumed to be more talkative than men. Data were analyzed from 396 participants who wore a voice recorder that sampled ambient sounds for several days. Participants' daily word use was extrapolated from the number of recorded words. Women and men both spoke about 16,000 words per day.     

Influence of photoperiod on the frequency of sexual embryo saes in facultative apomictic buffelgrass

Summary The frequency at which sexual embryo sacs occur in some facultatively apomictic species is influenced by photoperiod. This research was conducted to study changes in the frequency of sexual embryo sacs (SES) in field-grown accessions of buffelgrass [Pennisetum ciliare (L.) Link] and to determine the influence of photoperiod on the expression of sexuality under controlled environmental conditions. In a 3-yr field study, mean frequency of SES collected from two facultative buffelgrass accessions (PI 409266 and 409277) ranged from 2.5 to 8.6 percent. Within each year, the greatest number of SES were observed during spring and summer, while a reduction in SES occurred during the late summer and early fall. Under controlled environmental conditions equal numbers of SES were observed from plants grown at 8, 12, and 16 h. For the two facultative accessions of buffelgrass examined in this study, it was concluded that no relationship existed between photoperiod and frequency of SES under either field or controlled environmental conditions.     

Productivity of hedgerow shrubs and maize under alleycropping and block planting systems in semiarid Kenya

A field experiment was conducted for eight cropping seasons from 1988 to 1991 in semiarid Machakos, Kenya, to compare the productivity of shrubs and crops in intercropping (alleycropping) versus block (sole) planting systems. The study, conducted in a split-plot experiment with three replications, consisted of two tree species (Leucaena leucocephala andSenna siamea syn.Cassia siamea) in the main-plots and combinations of two planting systems (alleycropping and block planting of the shrubs and maize) with five different ratios of land allocation for the shrub and crop (1000, 1585, 2080, 2575, and 0100) in sub-plots. Thus, a sole maize and a sole tree were included in the subplot treatments. The spacing between hedgerows of shrubs in intercropping was 6.7, 5, and 4 m, respectively, corresponding to 15, 20, and 25% land allocation to shrubs. The trees were pruned to 0.5 m height four times a year. Intercropped hedgerows of senna and leucaena produced 10% and 24% more biomass than their respective block planting systems. On average, leucaena produced more biomass than senna. Maize alleycropped with leucaena yielded 16% less grain than sole-crop maize, whereas senna intercropping caused hardly any maize-yield reduction. Compared with the respective sole-crop systems, leucaena intercropping did not affect land equivalent ratio (LER), whereas LER increased by 28% with senna intercropping. The different tree:crop land occupancy ratios did not affect the production of either the component species or of the total system, except that LER declined with incrreased spacing between hedgerows. It is concluded that in semiarid highlands of Kenya, leucaena and crops should better be grown in sole blocks, not in alleycropping. In the case of slow-growing species such as senna, intercropping is worthwhile to consider only if the additional labour needed does not pose a serious problem for management, and the species has fodder value.     

Crown development and biomass production of pollardedErythrina berteroana,E. fusca andGliricidia sepium in the humid tropical lowlands of Costa Rica

Leguminous trees are widely used to support climbers such as black pepper (Piper nigrum L.) and vanilla (Vanilla planifolia Andr.), to provide shade to crops and to maintain soil fertility. Pruning or pollarding provides the means to maximize benefits from the trees, particularly through the production of biomass as a soil amendment. At the same time, excessive shading is reduced. In order to quantify the degree of shading of black pepper by the support trees during a six-month pollarding cycle, this study monitored crown development (part I) and light transmission (part II) of three widely used species,Erythrina berteroana Urban,E. fusca Loureiro andGliricidia sepium (Jacq.) Steud.The two sites were in the humid Atlantic Lowlands of Talamanca, southern Costa Rica (mean annual rainfall 2460 mm, no distinct dry season), on alluvial soils (typic Tropofluvents) with low levels of K, P, Mn and Zn. Two-year-old trees, that had been established from cuttings as live supports for black pepper, were used for the study. They were pollarded twice per year. The variables measured/estimated monthly were: stem diameter at breast height (dbh); height, foliated height, depth, diameter, leaf area and leaf biomass of crowns; length, diameter, number and inclination of branches. Leaf nutrient contents were also determined.Following pollarding,G. sepium was the first to resprout, followed byE. berteroana andE. fusca. G. sepium with its few but erect and long branches had slender, columnar crowns. while those ofE. berteroana andE. fusca were more spherical. Four months after pollarding,G. sepium started shedding leaves at the base of its branches. Average crown diameter after six months were 2.2 m forE. berteroana, 1.9 m forE. fusca and 1.5 m forG. sepium; average crown depths after six months were 2.8 m, 2.1 m, and 2.7 m, respectively, for the three species. For 1600 trees ha^–1 and two prunings per year, foliar biomass production from prunings alone (i.e., without litter fall), calculated from regressions with length and basal diameter of branches as independent variables, was 3.8 t, 3.4 t and 2.3 t dry matter ha^–1 a^–1 forE. berteroana, E. fusca andG. sepium, respectively; these estimates agreed well with measured values. The corresponding N contents were 146 kg, 124 kg and 90 kg, respectively. While N contributions from the prunings exceeded 50% of the fertilizer recommendations for black pepper, the contributions were <10% for P and <40% for K. Linear regressions between leaf area and branch dimensions, and quadratic regressions between foliar biomass and crown diameter showed high coefficients of determination (0.83>R ²>0.99). Correlations between foliar biomass, dbh, and dbh increments were generally weak. Conclusions from the study appear to be valid also for other agroforestry systems where the same species are planted under similar ecological conditions for reasons other than as live supports.

---

Resumen Los árboles leguminosos se usan frecuentamente como soportes vivos para plantas trepadoras como pimienta negra (Piper nigrum L.) y vainilla (Vanilla planifolia Andr.), para dar sombra y para reducir el desgaste de los suelos. La poda de los árboles reduce la cantidad mantener la fertilidad de sombra y produce biomasa que sirve como enmiendas. Con el objectivo de cuantificar el grado del sombreado de pimienta negra por los árboles durante un cíclo de poda de seis meses, se monitoreó en este estudio el desarrollo de la copa (parte I) y la transmisión de luz (parte II) de tres especies usados como soportes vivos:Erythrina berteroana Urban,E. fusca Loureiro yGliricidia sepium (Jacq) Steud.Los dos sitios estan en la zona tropical húmeda de Talamanca Baja, en el sureste de Costa Rica (precipitación promedia 2460 mm, sin estación seca) en suelos aluviales (Typic Tropofluvents) y pobres en K, P, Mn y Zn. Los árboles fueron establecidos de estacas. Cuando este estudio empezó, los árboles tenían dos años de edad y fueron podados dos veces por año. Los parámetros medidos ó estimados mensualmente fueron: diámetro del tronco a la altura del pecho (DAP); altura, altura foliada, profundidad, diámetro, área foliar y biomasa foliar de las copas; largo, diámetro, número y inclinación de las ramas. Además se determinó el contenido de nutrientes de las hojas.Despues de la poda,G. sepium fue el primero en rebrotar, seguido porE. berteroana yE. fusca. G. sepium con sus ramas escasas pero largas y erectas, formó una copa delgada y columnar, mientras que las copas deE. berteroana yE. fusca fueron más esféricas. Cuatro meses después de la poda,G. sepium empezó a perder las hojas en la base de sus ramas. El promedio del diámetro de la copa después de seis meses fue de 2.2 m paraE. berteroana, 1.9 m paraE. fusca y 1.5 m paraG. sepium; el promedio de la profundidad de la copa después de seis meses fú de 2.8 m, 2.1 m y 2.7 m, respectivamente para las tres especies. Para 1600 árboles ha^–1 y dos podas por año, la producción estimada de biomasa foliar de la poda (sin tomar en cuenta la hojarasca caída antes), calculada de regresiónes con el largo y el diámetro basal de las ramas como variables independientes, fue de 3.8 t, 3.4 t y 2.3 t de matéria seca ha^–1 a^–1 paraE. berteroana, E. fusca yG. sepium, respectivamente; estos valores calculados concordaron bien con valores medidos. El contenido de N correspondiente fué de 146 kg, 124 kg, y 90 kg, respectivamente. Mientras que la contribución de N procedente de las podas excedió 50% de una recomendación de fertilización común para pimienta negra, la contribución de P fue inferior al 10%, y menos del 40% para K. Regresiones lineales entre área foliar y las dimensiones de la ramas, y regresiones cuadraticas entre biomasa foliar y el diámetro de la copa mostraron altos coeficientes de determinación (0.83>R ²>0,99). Las correlaciones entre biomasa foliar, el DAP y incrementos del DAP fueron generalmente débiles. Las conclusiones de éste estudio parecen válidas tambien para sistemas agroforestales donde las especies estudiadas son plantadas bajo condiciones ecológicas similares para propósitos diferentes de como soportes vivos.

     

Classification of agroforestry systems

Classification of agroforestry (AF) systems is necessary in order to provide a framework for evaluating systems and developing action plans for their improvement. The AF Systems Inventory (AFSI) being undertaken by ICRAF provides the background information for an approach to classification.The words system, sub-system and practice are commonly used in AF literature. An AF system refers to a type of AF land-use that extends over a locality to the extent of forming a land utilization type of the locality. Sub-system and practice are lower-order terms in the hierarchy with lesser magnitudes of role, content and complexity. In common parlance, however, these terms are used loosely, and almost synonymously.Several criteria can be used to classify and group AF systems (and practices). The most commonly used ones are the system's structure (composition and arrangement of components), its function, its socio-economic scale and level of management, and its ecological spread. Structurally, the system can be grouped as agrisilviculture (crops — including tree/shrub crops — and trees). silvopastoral (pasture/animals + trees), and agrosilvopastoral (crops + pasture/animals + trees). Other specialized AF systems such as apiculture with trees, aquaculture in mangrove areas, multipurpose tree lots, and so on, can also be specified. Arrangement of components can be in time (temporal) or space (spatial) and several terms are used to denote the various arrangements. Functional basis refers to the main output and role of components, especially the woody ones. These can be productive functions (production of basic needs such as food, fodder, fuelwood, other products, etc.) and protective roles (soilconservation, soil fertility improvement, protection offered by windbreaks and shelterbelts, and so on). On an ecological basis, systems can be grouped for any defined agro-ecological zone such as lowland humid tropics, arid and semi-arid tropics, tropical highlands, and so on. The socio-economic scale of production and level of management of the system can be used as the criteria to designate systems as commercial, intermediate, or subsistence. Each of these criteria has merits and applicability in specific situations, but they have limitations too so that no single classification scheme can be accepted as universally applicable. Classification will depend upon the purpose for which it is intended.Nevertheless since there are only three basic sets of components that are managed by man in all AF Systems, viz. woody perennials, herbaceous plants and animals, a logical first step is to classify AF systems based on their component composition, into agrisilvicultural, silvopastoral and agrosilvopastoral (or any other specialized) systems. Subsequently the systems can be grouped according to any of the purpose-oriented criteria. The resulting system name can thus have any one of the three basic categories as a prefix; for example agrisilvicultural system for soil conservation.Some of the major AF systems and practices of the tropics are grouped according to such a framework. The scheme appears a logical, simple, pragmatic and purpose-oriented approach to classification of AF systems.