Citrus seedlings were grown in soil columns in which the root system was hydraulically separated into tyro equal layers; this enabled us to maintain roots in the upper layer without water for 110 d, The columns were placed into waterbaths modified so that soil temperatures in the top layer could be maintained at 25 degrees C or at 35 degrees C, while temperature in the bottom layer was maintained at 25 degrees C, We hypothesized that, if citrus plants were grown in dry soil for an extended period, root mortality would increase if the cost of maintaining the roots was increased by elevating the soil temperature. However, during the drought period we did not observe any root mortality, even at the higher soil temperature, Moreover, we did not find that root respiration was increased by prolonged exposure to drought and higher soil temperature, We did find that root respiration rates slowed in dry soil, Furthermore, when the soil columns were switched from one temperature treatment to another, root respiration rates in met soil rapidly increased when moved to a higher temperature or rapidly decreased when moved to a lower temperature, But after only 4 d, respiration rates returned to their original level; root respiration in dry soil was not affected by either short-or long-term shifts in soil temperature, Root respiration in citrus appears to acclimate rapidly to changes in soil temperature. [KEYWORDS: Citrus volkameriana; biomass allocation; drought; root respiration; root turnover; soil temperature; Volkamer lemon]
Original languageEnglish
JournalPlant Cell and Environment
Journal publication date1997

ID: 200977