Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4396677 | Journal of Experimental Marine Biology and Ecology | 2010 | 8 Pages |
Abstract
Zostera marina L. (eelgrass) from Great Bay Estuary, New Hampshire and Maine (USA), was transplanted in outdoor mesocosms and subjected to four light treatments (100, 58, 34 and 11% surface irradiance, SI) between May and September 2003 to investigate the relationship between light availability and the growth and survival of eelgrass. Evaluating eelgrass seedlings and adult mature plants demonstrated no differences in photosynthetic response after 22Â days of acclimation. During at least the first 19Â days of shading, maximum electron transport rate (ETRmax) rate of eelgrass did not differ significantly between light treatments. After 40Â days, a significant reduction in ETRmax and minimum saturating light was observed in plants growing at 34% SI and below. Morphological responses exhibited a linear increasing trend with greater light. 34% SI exhibited drastic reductions (to less than 25% of control) in rhizome growth, shoot density, shoot production, number of nodes per plant and plant weight at the end of the study (81Â days). Shoot to root ratio at 34% SI increased by >Â 50%. Plants shaded to 58% SI showed no significant difference from the control in plant parameters except an increased rate of rhizome elongation. Our results link the lower shoot densities with shading to the slow growth rate of horizontal rhizomes and a total lack of lateral expansion at 11% SI. ETRmax declined over time in plants at 11% SI resulting in 81% mortality, no lateral branching and no morphological development, indicating that the minimum light required for long-term eelgrass growth and survival is greater than the previously suggested 11% SI. We demonstrate that eelgrass plants at these latitudes can persist at light levels of 58% SI and above, and are light-limited at 34% SI and below.
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Authors
Caroline A. Ochieng, Frederick T. Short, Di I. Walker,