Leïla Ezzat1, Jean-François Maguer2, Renaud Grover3, Christine Ferrier-Pagès4. 1. Marine Department, Centre Scientifique de Monaco, 8 Quai Antoine Ier, MC-98000 Monaco, Principality of Monaco leila@centrescientifique.mc. 2. LEMAR - UMR 6539 UBO/CNRS/IRD, Institut Universitaire Européen de la Mer, Place Nicolas Copernic, Plouzané 29280, France. 3. Marine Department, Centre Scientifique de Monaco, 8 Quai Antoine Ier, MC-98000 Monaco, Principality of Monaco. 4. Marine Department, Centre Scientifique de Monaco, 8 Quai Antoine Ier, MC-98000 Monaco, Principality of Monaco ferrier@centrescientifique.mc.
Abstract
Anthropogenic nutrient enrichment affects the biogeochemical cycles and nutrient stoichiometry of coastal ecosystems and is often associated with coral reef decline. However, the mechanisms by which dissolved inorganic nutrients, and especially nitrogen forms (ammonium versus nitrate) can disturb the association between corals and their symbiotic algae are subject to controversial debate. Here, we investigated the coral response to varying N : P ratios, with nitrate or ammonium as a nitrogen source. We showed significant differences in the carbon acquisition by the symbionts and its allocation within the symbiosis according to nutrient abundance, type and stoichiometry. In particular, under low phosphate concentration (0.05 µM), a 3 µM nitrate enrichment induced a significant decrease in carbon fixation rate and low values of carbon translocation, compared with control conditions (N : P = 0.5 : 0.05), while these processes were significantly enhanced when nitrate was replaced by ammonium. A combined enrichment in ammonium and phosphorus (N : P = 3 : 1) induced a shift in nutrient allocation to the symbionts, at the detriment of the host. Altogether, these results shed light into the effect of nutrient enrichment on reef corals. More broadly, they improve our understanding of the consequences of nutrient loading on reef ecosystems, which is urgently required to refine risk management strategies.
Anthropogenic nutrient enrichment affects the biogeochemical cycles and nutrient stoichiometry of coastal ecosystems and is often associated with coral reef decline. However, the mechanisms by which dissolved inorganic nutrients, and especially nitrogen forms (n>an class="Chemical">ammonium versus nitrate) can disturb the association between corals and their symbiotic algae are subject to controversial debate. Here, we investigated the coral response to varying N : P ratios, with nitrate or ammonium as a nitrogen source. We showed significant differences in the carbon acquisition by the symbionts and its allocation within the symbiosis according to nutrient abundance, type and stoichiometry. In particular, under low phosphate concentration (0.05 µM), a 3 µM nitrate enrichment induced a significant decrease in carbon fixation rate and low values of carbon translocation, compared with control conditions (N : P = 0.5 : 0.05), while these processes were significantly enhanced when nitrate was replaced by ammonium. A combined enrichment in ammonium and phosphorus (N : P = 3 : 1) induced a shift in nutrient allocation to the symbionts, at the detriment of the host. Altogether, these results shed light into the effect of nutrient enrichment on reef corals. More broadly, they improve our understanding of the consequences of nutrient loading on reef ecosystems, which is urgently required to refine risk management strategies.
Authors: Scott C Doney; Mary Ruckelshaus; J Emmett Duffy; James P Barry; Francis Chan; Chad A English; Heather M Galindo; Jacqueline M Grebmeier; Anne B Hollowed; Nancy Knowlton; Jeffrey Polovina; Nancy N Rabalais; William J Sydeman; Lynne D Talley Journal: Ann Rev Mar Sci Date: 2012
Authors: Daniel J Conley; Hans W Paerl; Robert W Howarth; Donald F Boesch; Sybil P Seitzinger; Karl E Havens; Christiane Lancelot; Gene E Likens Journal: Science Date: 2009-02-20 Impact factor: 47.728
Authors: James J Elser; Matthew E S Bracken; Elsa E Cleland; Daniel S Gruner; W Stanley Harpole; Helmut Hillebrand; Jacqueline T Ngai; Eric W Seabloom; Jonathan B Shurin; Jennifer E Smith Journal: Ecol Lett Date: 2007-10-06 Impact factor: 9.492
Authors: Ulisse Cardini; Vanessa N Bednarz; Malik S Naumann; Nanne van Hoytema; Laura Rix; Rachel A Foster; Mamoon M D Al-Rshaidat; Christian Wild Journal: Proc Biol Sci Date: 2015-11-07 Impact factor: 5.349
Authors: Mary K Donovan; Thomas C Adam; Andrew A Shantz; Kelly E Speare; Katrina S Munsterman; Mallory M Rice; Russell J Schmitt; Sally J Holbrook; Deron E Burkepile Journal: Proc Natl Acad Sci U S A Date: 2020-02-24 Impact factor: 11.205
Authors: Claudia Pogoreutz; Nils Rädecker; Anny Cárdenas; Astrid Gärdes; Christian Wild; Christian R Voolstra Journal: Ecol Evol Date: 2018-01-25 Impact factor: 2.912
Authors: Chloé A Pupier; Renaud Grover; Maoz Fine; Cécile Rottier; Jeroen A J M van de Water; Christine Ferrier-Pagès Journal: Front Microbiol Date: 2021-06-04 Impact factor: 5.640
Authors: Nils Rädecker; Jean-Baptiste Raina; Mathieu Pernice; Gabriela Perna; Paul Guagliardo; Matt R Kilburn; Manuel Aranda; Christian R Voolstra Journal: Front Physiol Date: 2018-03-16 Impact factor: 4.566