Search results for "Above ground"
showing 3 items of 3 documents
Planting density, above-ground dry-matter partitioning and fruit quality in greenhouse-grown 'Flordaprince' peach (Prunus persica L. Batsch) trees tr…
1999
SummaryThe effect of planting density on yield, fruit quality and above-ground dry-matter partitioning into vegetative and reproductive organs of six year old peach trees was investigated in Sicily on the very early-ripening cv Flordaprince in greenhouse. Increasing the number of trees per hectare from 1500 to 5000 significantly reduced total above-ground dry matter, trunk cross-sectional area and total leaf area. Differences in growth did not result in substantial modifications in the source-sink relationships between the vegetative and the reproductive organs of the above-ground part of the tree, as shown by the lack of statistical differences in dry-matter partitioning into fruit, leaves…
Rootstock influences seasonal dry matter and carbohydrate content and partitioning in aboveground components of 'Flordaprince' peach trees
1997
Seasonal development of leaf area, leaf area index (LAI), dry matter, and carbohydrate content were measured from harvest 1992 to harvest 1993 in above-ground components of `Flordaprince' peach [Prunus persica (L.) Batsch] trees grafted on GF 677 (Prunus persica × Prunus amygdalus) and MrS 2/5 (Prunus cerasifera free pollinated) rootstocks, which widely differ in vigor. Whole trees were separated into fruit, leaves, shoots, 1-year-old wood and >1-year-old wood. Sampling dates were coincident with key fruit and tree developmental stages: dormancy, fruit set, pit hardening, and fruit harvest. Rootstock modified the vegetative vigor of the tree, the seasonal partitioning of dry matter, and …
Molecular hydrogen (H2) mixing ratio and stable isotopic composition (dD) at the Cabauw tall tower in the Netherlands (2008-2012)
2016
Measurements of the stable isotopic composition (dD(H2) or dD) of atmospheric molecular hydrogen (H2) are a useful addition to mixing ratio (X(H2)) measurements for understanding the atmospheric H2 cycle. dD datasets published so far consist mostly of observations at background locations. We complement these with observations from the Cabauw tall tower at the CESAR site, situated in a densely populated region of the Netherlands. Our measurements show a large anthropogenic influence on the local H2 cycle, with frequently occurring pollution events that are characterized by X(H2) values that reach up to 1 ppm and low dD values. An isotopic source signature analysis yields an apparent source s…