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Temperature Effects on Oxidative Metabolism of Dormant Sugar Pine Seeds ¹

Department of Horticulture and Forestry, University of Arkansas, Fayetteville, Arkansas 72701

When dormant sugar pine (Pinus lambertiana L.) seeds were imbibed at 5°C, they showed a rapid increase in O₂ uptake, ATP level, and moisture content during the first 4 days. This was followed by a plateau phase until 60 days, after which a second significant increase in all three features occurred as dormancy was broken. During the plateau phase, conventional CN-sensitive respiration accounted for 74 to 79% of the total O₂ uptake. When dormant sugar pine seeds were imbibed at and maintained at 25°C, a different pattern occurred. Water uptake was much more rapid during the first 4 days and no second increase occurred after 60 days because the seeds did not break dormancy. There was an initial burst of O₂ uptake and ATP formation, but these both declined abruptly after 24 to 48 hours. Levels about half those of seeds at 5°C were maintained through the rest of a 90-day period. CN-sensitive respiration declined during imbibition at 25°C, and accounted for only 55 to 61% of the total O₂ uptake. The inability of dormant sugar pine seeds to germinate at temperatures above about 17°C may therefore result from initial temperature effects on membrane properties, leading to reduced O₂ uptake, reduced cytochrome oxidase electron transport activity, and lowered ATP levels.