Article citations

    Kipson S, Linares C, Teixidó N, Bakran-Petricioli T, Garrabou J (2012) Effects of thermal stress on the early development stages of a gorgonian coral. Mar Ecol Prog Ser 470: 69–78. doi: 10.3354/meps09982

has been cited by the following article:

  • TITLE: Reproductive Efficiency of a Mediterranean Endemic Zooxanthellate Coral Decreases with Increasing Temperature along a Wide Latitudinal Gradient
  • AUTHORS: Valentina Airi, Francesca Gizzi, Giuseppe Falini, Oren Levy, Zvy Dubinsky, Stefano Goffredo
  • JOURNAL NAME: PLOS ONE DOI: 10.1371/journal.pone.0091792 Sep 06, 2014
  • ABSTRACT: Investments at the organismal level towards reproduction and growth are often used as indicators of health. Understanding how such energy allocation varies with environmental conditions may, therefore, aid in predicting possible responses to global climatic change in the near future. For example, variations in seawater temperature may alter the physiological functioning, behavior, reproductive output and demographic traits (e.g., productivity) of marine organisms, leading to shifts in the structure, spatial range, and abundance of populations. This study investigated variations in reproductive output associated with local seawater temperature along a wide latitudinal gradient on the western Italian coast, in the zooxanthellate Mediterranean coral, Balanophyllia europaea. Reproductive potential varied significantly among sites, where B. europaea individuals from the warmest site experienced loss of oocytes during gametogenesis. Most of the early oocytes from warmest sites did not reach maturity, possibly due to inhibition of metabolic processes at high temperatures, causing B. europaea to reabsorb the oocytes and utilize them as energy for other vital functions. In a progressively warming Mediterranean, the efficiency of the energy invested in reproduction could be considerably reduced in this species, thereby affecting vital processes. Given the projected increase in seawater temperature as a consequence of global climate change, the present study adds evidence to the threats posed by high temperatures to the survival of B. europaea in the next decades.