Final Report Abstract

Nitrogen (N) is a limiting nutrient in highly productive tropical coral reefs despite its key role for coral metabolism. This requires efficient N (re)cycling within the coral holobionts (i.e., the coral animal with its algal symbionts and associated microbes). At the same time, high internal N concentrations can be detrimental to the coral holobiont by shifting the internal system from N limitation towards P limitation, which has been associated with increased bleaching susceptibility. The coral associated microbiome may play a key role in regulating internal N availability by either providing bioavailable N through fixation of atmospheric dinitrogen (N 2 ) or alleviating the coral holobiont from excess N through denitrification. N 2 fixation by diazotrophs is highly susceptible to shifts in environmental parameters (e.g., temperature, light), whereas the potential effects of the environment on denitrification are so far unknown. Recent research suggests that both key N-cycling pathways occur simultaneously in coral holobionts, appear to be correlated, and are likely fuelled by photosynthates provided by the algal symbionts. Based on the available evidence, I hypothesized that a stable coral holobiont is characterized by an internal balance of C and N availability, facilitated by the complex interplay between associated denitrifiers, diazotrophs and algal symbionts within the coral holobiont. A deviation from this balance can lead in an interruption of N limitation for the algal symbionts and may ultimately result in reduced coral holobiont health. Project DECODE (Determining the drivers of coral-associated denitrification), combined field studies in seasonal resolution and manipulative laboratory experiments employing a variety of methodologies from stable isotope analysis to gas chromatography, and molecular techniques. This project considerably advanced our knowledge on the roles and controls of denitrification in coral holobionts including: (1) coral-associated denitrification was always detectable with highest activities observed for symbiont-free corals, (2) denitrifiers can supplement or even replace photosynthetic C supply with environmental dissolved organic C (DOC), with (3) elevated DOC levels stimulating/reducing denitrification, and that (4) increased environmental N levels promotes algal growth without affecting the nutritional status of the coral host. Lastly, (5) the seasonally-driven nutrient partitioning suggests that each symbiotic partner seeks to optimize its C and N acquisition. Our study thereby confirms the significance of coral associated denitrification and the tight coupling of internal C and N cycles in coral holobionts.

Publications

• Relative abundance of nitrogen cycling microbes in coral holobionts reflects environmental nitrate availability. Royal Society Open Science, 8(6), 201835.
  Tilstra, Arjen; Roth, Florian; El-Khaled, Yusuf C.; Pogoreutz, Claudia; Rädecker, Nils; Voolstra, Christian R. & Wild, Christian
  
• Comparative Evaluation of Free Web Tools ImageJ and Photopea for the Surface Area Quantification of Planar Substrates and Organisms. Diversity, 14(4), 272.
  El-Khaled, Yusuf C.; Kler Lago, Alexandra; Mezger, Selma D. & Wild, Christian
  
• Effective asexual reproduction of a widespread soft coral: comparative assessment of four different fragmentation methods. PeerJ, 10, e12589.
  Kim, Sohyoung; Wild, Christian & Tilstra, Arjen
  
• Phosphate enrichment increases the resilience of the pulsating soft coral Xenia umbellata to warming. Frontiers in Marine Science, 9.
  Klinke, Annabell; Mezger, Selma D.; Thobor, Bianca; Tilstra, Arjen; El-Khaled, Yusuf C. & Wild, Christian
  
• Presence of algal symbionts affects denitrifying bacterial communities in the sea anemone Aiptasia coral model. ISME Communications, 2(1).
  Xiang, Nan; Rädecker, Nils; Pogoreutz, Claudia; Cárdenas, Anny; Meibom, Anders; Wild, Christian; Gärdes, Astrid & Voolstra, Christian R.
  
• The pulsating soft coral Xenia umbellata shows high resistance to warming when nitrate concentrations are low. Scientific Reports, 12(1).
  Thobor, Bianca; Tilstra, Arjen; Bourne, David G.; Springer, Karin; Mezger, Selma Deborah; Struck, Ulrich; Bockelmann, Franziska; Zimmermann, Lisa; Yánez Suárez, Ana Belén; Klinke, Annabell & Wild, Christian
  
• The widely distributed soft coral Xenia umbellata exhibits high resistance against phosphate enrichment and temperature increase. Scientific Reports, 12(1).
  Mezger, Selma D.; Klinke, Annabell; Tilstra, Arjen; El-Khaled, Yusuf C.; Thobor, Bianca & Wild, Christian
  
• Excess labile carbon promotes diazotroph abundance in heat-stressed octocorals. Royal Society Open Science, 10(3).
  Xiang, Nan; Meyer, Achim; Pogoreutz, Claudia; Rädecker, Nils; Voolstra, Christian R.; Wild, Christian & Gärdes, Astrid
  
• Physiology of the widespread pulsating soft coralXenia umbellatais affected by food sources, but not by water flow. Ecology and Evolution, 13(9).
  Hill, C. E. L.; Abbass, S. G.; Caporale, G.; El‐Khaled, Y. C.; Kuhn, L.; Schlenzig, T.; Wild, C. & Tilstra, A.
  
• Short-term ocean acidification decreases pulsation and growth of the widespread soft coral Xenia umbellata. PLOS ONE, 18(11), e0294470.
  Tilstra, Arjen; Braxator, Lorena; Thobor, Bianca; Mezger, Selma D.; Hill, Claudia E. L.; El-Khaled, Yusuf C.; Caporale, Giulia; Kim, Sohyoung & Wild, Christian
  
• Coral high molecular weight carbohydrates support opportunistic microbes in bacterioplankton from an algae-dominated reef. mSystems, 9(11).
  Thobor, Bianca M.; Haas, Andreas F.; Wild, Christian; Nelson, Craig E.; Wegley Kelly, Linda; Hehemann, Jan-Hendrik; Arts, Milou G. I.; Boer, Meine; Buck-Wiese, Hagen; Nguyen, Nguyen P.; Hellige, Inga & Mueller, Benjamin
  
• Excess particulate organic matter negatively affects the ecophysiology of the widespread soft coral Xenia umbellata. Marine Biology, 171(12).
  Hill, C. E. L.; Rücker, J.; Eichhorn, N.; Mezger, S. D.; Caporale, G.; El-Khaled, Y. C.; Blanco C., S. V.; Wild, C. & Tilstra, A.
  
• Mucus carbohydrate composition correlates with scleractinian coral phylogeny. Scientific Reports, 14(1).
  Thobor, Bianca M.; Tilstra, Arjen; Mueller, Benjamin; Haas, Andreas; Hehemann, Jan-Hendrik & Wild, Christian