Converting simulated total dry matter to fresh marketable yield for field vegetables at a range of nitrogen supply levels

Simultaneous analysis of economic and environmental performance of horticultural crop production requires qualified assumptions on the effect of management options, and particularly of nitrogen (N) fertilisation, on the net returns of the farm. Dynamic soil-plant-environment simulation models for agro-ecosystems are frequently applied to predict crop yield, generally as dry matter per area, and the environmental impact of production. Economic analysis requires conversion of yields to fresh marketable weight, which is not easy to calculate for vegetables, since different species have different properties and special market requirements. Furthermore, the marketable part of many vegetables is dependent on N availability during growth, which may lead to complete crop failure under sub-optimal N supply in tightly calculated N fertiliser regimes or low-input systems. In this paper we present two methods for converting simulated total dry matter to marketable fresh matter yield for various vegetables and European growth conditions, taking into consideration the effect of N supply: (i) a regression based function for vegetables sold as bulk or bunching ware and (ii) a population approach for piecewise sold row crops. For both methods, to be used in the context of a dynamic simulation model, parameter values were compiled from a literature survey. Implemented in such a model, both algorithms were tested against experimental field data, yielding an Index of Agreement of 0.80 for the regression strategy and 0.90 for the population strategy. Furthermore, the population strategy was capable of reflecting rather well the effect of crop spacing on yield and the effect of N supply on product grading

Using Light to Improve Commercial Value

The plasticity of plant morphology has evolved to maximize reproductive fitness in response to prevailing environmental conditions. Leaf architecture elaborates to maximize light harvesting, while the transition to flowering can either be accelerated or delayed to improve an individual's fitness. One of the most important environmental signals is light, with plants using light for both photosynthesis and as an environmental signal. Plants perceive different wavelengths of light using distinct photoreceptors. Recent advances in LED technology now enable light quality to be manipulated at a commercial scale, and as such opportunities now exist to take advantage of plants' developmental plasticity to enhance crop yield and quality through precise manipulation of a crops' lighting regime. This review will discuss how plants perceive and respond to light, and consider how these specific signaling pathways can be manipulated to improve crop yield and quality

Domestication Syndrome in Caimito (Chrysophyllum cainito L.): Fruit and Seed Characteristics

Domestication Syndrome in Caimito (Chrysophyllum cainitoL.): Fruit and Seed Characteristics: The process of domestication is understudied and poorly known for many tropical fruit tree crops. The star apple or caimito tree (Chrysophyllum cainito L., Sapotaceae) is cultivated throughout the New World tropics for its edible fruits. We studied this species in central Panama, where it grows wild in tropical moist forests and is also commonly cultivated in backyard gardens. Using fruits collected over two harvest seasons, we tested the hypothesis that cultivated individuals of C. cainito show distinctive fruit and seed characteristics associated with domestication relative to wild types. We found that cultivated fruits were significantly and substantially larger and allocated more to pulp and less to exocarp than wild fruits. The pulp of cultivated fruits was less acidic; also, the pulp had lower concentrations of phenolics and higher concentrations of sugar. The seeds were larger and more numerous and were less defended with phenolics in cultivated than in wild fruits. Discriminant Analysis showed that, among the many significant differences, fruit size and sugar concentration drove the great majority of the variance distinguishing wild from cultivated classes. Variance of pulp phenolics among individuals was significantly higher among wild trees than among cultivated trees, while variance of fruit mass and seed number was significantly higher among cultivated trees. Most traits showed strong correlations between years. Overall, we found a clear signature of a domestication syndrome in the fruits of cultivated caimito in Panama

Shifts in Species Composition Constrain Restoration of Overgrazed Grassland Using Nitrogen Fertilization in Inner Mongolian Steppe, China

Long-term livestock over-grazing causes nitrogen outputs to exceed inputs in Inner Mongolia, suggesting that low levels of nitrogen fertilization could help restore grasslands degraded by overgrazing. However, the effectiveness of such an approach depends on the response of production and species composition to the interactive drivers of nitrogen and water availability. We conducted a five-year experiment manipulating precipitation (NP: natural precipitation and SWP: simulated wet year precipitation) and nitrogen (0, 25 and 50 kg N ha-1 yr-1) addition in Inner Mongolia. We hypothesized that nitrogen fertilization would increase forage production when water availability was relatively high. However, the extent to which nitrogen would co-limit production under average or below average rainfall in these grasslands was unknown

Efeito da carga de frutos e concentrações salinas no crescimento do meloeiro Cultivado em substrato Effect of fruit load and saline concentrations on the growth of melon cultivated under protected environment

O objetivo foi avaliar o efeito do número de frutos por planta e de concentrações salinas em solução nutritiva recirculante, no crescimento do meloeiro cultivado em ambiente protegido e em substrato de casca de arroz crua, durante os meses de fevereiro a maio de 2003. Três números de frutos por planta (2, 3 e 4) e três concentrações salinas da solução nutritiva (1,9; 2,3 e 2,9 dS m-1) foram estudados. A partir dos dados da matéria seca (MS) e fresca (MF) e da área foliar, acumuladas aos 62 dias após o transplante, foi determinada a produção e a distribuição de biomassa entre as diferentes partes da planta. Os frutos compreenderam de 49 a 55% da MS aérea total produzida pela planta, demonstrando que estes são os órgãos drenos de assimilados mais potentes. O aumento do número de frutos reduziu o peso médio dos frutos, sem afetar a produção e a distribuição de MS total, vegetativa e generativa. Entretanto, aumentou levemente a produção de MF dos frutos e da parte aérea como um todo, favorecendo a distribuição de MF para os frutos. Portanto, o acúmulo de água nos frutos ocorreu em uma proporção diferente do acúmulo da MS. A menor concentração salina da solução nutritiva testada pode ser indicada para o cultivo do meloeiro em substrato de casca de arroz crua durante o outono, pois promove um crescimento da planta similar ao observado nas concentrações mais altas.<br>The effect of fruit load and of saline concentrations in nutrient solution recirculating, was evaluated on the growth of melon plants cultivated under protected cultivation and in raw rice husk, during the months February to May of 2003. Three numbers of fruits/plant (2, 3 and 4) and three saline concentrations of the nutrient solution (1,9; 2,3 and 2,9 dS m-1) were studied. From the data of dry and fresh matter (DM and FM), and of the leaf area accumulated at 62 days after setting, the biomass production and distribution among the different plant parts was established. The fruits comprised from 49 to 55% of the total above-ground DM production, which demonstrated that they are the strongest sinks for assimilates. Increasing the number of fruits reduced the fruit mean weight, with no effect on the production and distribution of total, vegetative and generative DM. However, it slightly increased the fruit and whole aerial plant parts, FM production and partitioning to the fruits. Therefore, the accumulation of water in fruits was not proportional to DM accumulation. The lower saline concentration in the nutrient solution can be indicated for melon cultivation in raw rice husk during the autumn crop-season, because it promotes a similar plant growth to the observed in the highest concentrations