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Nitrogen dynamics in field-grown Comice pears (pears)

Sanchez, Enrique Eduardo.

Ph.D. thesis,Oregon State University, Corvallis, Or. 197 pages.

1990

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NITROGEN DYNAMICS IN FIELD-GROWN COMICE PEARS (PEARS).

The dynamics of N was studied in field grown Comice/Provence quince BA29 pears in Medford, Oregon.  Total tree biomass, N content, and (15)N evaluations suggest that young pears require little N (48 kg N ha(-1) yr(-1)).  About 45% of total tree N present in dormant trees was remobilized into new growth the following season.  Main storage organs were roots, frame and one-year wood.  Before leaf fall, peripheral, medium and interior canopy leaves exported to storage tissues 71, 61 and 52% of their total N, respectively.  The export of N was influenced more by leaf position in the canopy than the nutritional status of the tree.

 Shoot and fruit growth were dependent on newly absorbed N.  A heavy crop load caused more stored N to be diverted into fruits at the expense of other tree components.  Early spring application of N resulted in a buildup of tree reserves for developing buds, but produced excessive growth and resulted in fruits with undesirable high concentration of N.  From harvest until leaf fall very little N was partitioned into the aerial portion of the tree.  In order to increase sustantially N reserves in the aboveground structure of the tree, and avoid excessive shoot growth and high N fruits, N should be applied 3-6 weeks before harvest.  When N was applied at or after harvest but before leaf fall, roots were primarily the site of N storage.  At that time 5 or 10% postharvest urea spray was the only effective way to obtain labelled N in flower buds.

 Early spring growth normally depended on N reserves.  However when temperature around bloom was warmer than the long term average newly absorbed N was translocated to the flowers.  During the first 3-4 weeks after bloom newly absorbed N was partitioned to spur leaves while shoot leaves were more dependent on stored N.  Once spur leaves reached full expansion N was diverted into shoot leaves and fruits.

 Fruits from the same tree varied considerable in N concentration especially when fertilizer N was applied after bloom.  Trees with high N status discriminated in the allocation of N to fruit in different canopy positions but trees with low N status did not.  Large number of fruits in any specific location lessened N concentrations.  The location of the fruit in the canopy only partially explains N variability.  Similar sized fruits only a few centimeters apart may have a two fold concentration range.