API src

The role of turgor in rain-cracking of sweet cherry fruit

Description: Das Projekt "The role of turgor in rain-cracking of sweet cherry fruit" wird vom Umweltbundesamt gefördert und von Leibniz Universität Hannover, Institut für Biologische Produktionssysteme, Fachgebiet Obstbau durchgeführt. Rain-cracking limits the production of many soft and fleshy fruit including sweet cherries world wide. Cracking is thought to result from increased water uptake through surface and pedicel. Water uptake increases fruit volume, and hence, turgor of cells (Pcell) and the pressure inside the fruit (Pfruit) and subjects the skin to tangential stress and hence, strain. When the strain exceeds the limits of extensibility the fruit cracks. This hypothesis is referred to as the Pfruit driven strain cracking. Based on this hypothesis cracking is related to two independent groups of factors: (1) water transport characteristics and (2) the intrinsic cracking susceptibility of the fruit defined as the amount of cracking per unit water uptake. The intrinsic cracking susceptibility thus reflects the mechanical constitution of the fruit. Most studies focussed on water transport through the fruit surface (factors 1), but only little information is available on the mechanical constitution (i.e., Pfruit and Pcell, tensile properties such as fracture strain, fracture pressure and modulus of elasticity of the exocarp; factors 2). The few published estimates of Pfruit in sweet cherry are all obtained indirectly (calculated from fruit water potential and osmotic potentials of juice extracts) and unrealistically high. They exceed those measured by pressure probe techniques in mature grape berry by several orders of magnitude. The objective of the proposed project is to test the hypothesis of the Pfruit driven strain cracking. Initially we will focus on establishing systems of widely differing intrinsic cracking susceptibility by varying species (sweet and sour cherry, Ribes and Vaccinium berries, plum, tomato), genotype (within sweet cherry), stage of development and temperature. These systems will then be used for testing the hypothesis of Pfruit driven strain cracking. We will quantify Pfruit und Pcell by pressure probe techniques and compression tests and the mechanical properties of the exocarp using biaxial tensile tests. When the presence of high Pfruit and Pcell is confirmed by direct measurements, subsequent studies will focus on the mode of failure of the exocarp (fracture along vs. across cell walls) and the relationship between failure thresholds and morphometric characteristics of the exocarp. However, when Pfruit und Pcell are low, the hypothesis of Pfruit driven strain cracking must be rejected and the mechanistic basis for low pressures (presence of apoplastic solutes) clarified on a temporal (in the course of development) and a spatial scale (exocarp vs. mesocarp). We focus on sweet cherry, because detailed information on this species and experience in extending the short harvest period is available. Where appropriate, other cracking susceptible species (sour cherry, plum, Vaccinium, Ribes, tomato) will be included to further extend the experimental period and to maximize the range in intrinsic cracking susceptibility.

Types:

SupportProgram

Origin: /Bund/UBA/UFORDAT

Tags: Hannover ? Obstbau ? Genotyp ? Temperaturentwicklung ? Kirsche ? Zellwand ? Ernte ? Pflanzenproduktion ? Stress ? Temperatur ? Regen ? Bewässerung ? Gewässergrund ? Haut ? Frucht ? Studie ? Technik ? Zelle ? Wasser ? Messung ? Bauelement ? Schwellenwert ? Tomate ? Wasseroberfläche ? Wasserstand ? Verkehr ? Globale Aspekte ? Produktion ? VERWANDT ? Art [Spezies] ? WAND ? ZEITRAEUME ? BETRAG ? Beere ? Beerenobst ? Buchgrundstück ? DAUER ? DRUCK ? EINBAUSCHICHT ? EINGESCHRAENKT ? ELASTIZITAET ? ENTWICKLUNG ? ERGEBNIS ? Erlass [Recht] ? FEHLER ? GRUPPE ? KOMPRESSION ? KURZ ? Niederdruck ? OBERFLAECHE ? POTENZIAL ? PROJEKT ? SONSTIG ? Sonde ? THEMA ? UNTERSUCHUNG ? VERFRACHTUNG ? VERFUEGBAR ? Alterung ? Vermehrung ?

Region: Lower Saxony

Bounding box: 9.16667° .. 9.16667° x 52.83333° .. 52.83333°

License: cc-by-nc-nd/4.0

Language: Deutsch

Organisations

Time ranges: 2013-01-01 - 2024-11-29

Alternatives

Status

Quality score

Accessed 1 times.