Abstract
Respiratory activity of intact, attached roots was measured under field and controlled conditions. Root respiration of Yucca elata Engelm. was highly temperature dependent: Q10 values decreased from 2.1 (12–22° C) to 1.7 (26–36° C) as temperatures increased. Respiration ceased after 5 h at 42° C. In the field, in August, when net leaf photosynthesis was severely depressed, the diel fluctuation in the respiration rate of suberized and partially suberized roots was predominantly a function of temperature. A photoperiod-associated rise in respiration rates apart from temperature response occurred in February for nonsuberized, partially suberized, and suberized roots when active net photosynthesis occurred throughout the photoperiod. In whole-plant root systems, respiratory CO2 was 3.2 and 4.3 mg CO2·g DW-1·d-1 in August and February, respectively, when adjusted for the proportion of suberized and nonsuberized lateral roots. On a whole-plant basis, 0.89 mg C·g DW-1·d-1 was gained during February and 0.46 mg C·g DW-1·d-1 was lost in August. The belowground: aboveground ratio of whole-plants in situ was 0.42 on a shallow soil where vertical root growth was limited to a soil depth of 68 cm and ranged from 1.29 to 5.94 \(\left( {\bar x = 3.31} \right)\) in deep sands. No leaf dark fixation of CO2 was observed in field plants during August and February, nor in well-watered plants or plants subjected to drought in laboratory studies. Although small diel fluctuations in leaf acidity occurred in both field and greenhouse-grown plants, results of this study suggest that Y. elata is a C3 plant.
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Sisson, W.B. Carbon balance of Yucca elata Engelm. during a hot and cool period in situ. Oecologia 57, 352–360 (1983). https://doi.org/10.1007/BF00377180
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DOI: https://doi.org/10.1007/BF00377180