about
A Novel μCT Analysis Reveals Different Responses of Bioerosion and Secondary Accretion to Environmental VariabilityHidden impacts of ocean acidification to live and dead coral frameworkComparative transcriptome analysis reveals insights into the streamlined genomes of haplosclerid demospongesChanges in coral reef communities across a natural gradient in seawater pHElevated Colonization of Microborers at a Volcanically Acidified Coral Reef.Fine-scale nutrient and carbonate system dynamics around cold-water coral reefs in the northeast AtlanticCould some coral reefs become sponge reefs as our climate changes?Boring sponges, an increasing threat for coral reefs affected by bleaching events.Sponge biomass and bioerosion rates increase under ocean warming and acidification.Climate change projected effects on coastal foundation communities of the Greater Everglades using a 2060 scenario: need for a new management paradigm.Population structure and dispersal of the coral-excavating sponge Cliona delitrix.Sponge erosion under acidification and warming scenarios: differential impacts on living and dead coral.Natural diet of coral-excavating sponges consists mainly of dissolved organic carbon (DOC)Shifts in coral reef biogeochemistry and resulting acidification linked to offshore productivity.Global conservation status of sponges.Rising sea levels will reduce extreme temperature variations in tide-dominated reef habitats.Sibling species of mutualistic Symbiodinium clade G from bioeroding sponges in the western Pacific and western Atlantic oceans.Environmental drivers of coral reef carbonate production and bioerosion: a multi-scale analysis.A geological perspective on the degradation and conservation of western Atlantic coral reefs.Restructuring of the sponge microbiome favors tolerance to ocean acidification.The impact of CO2 emission scenarios and nutrient enrichment on a common coral reef macroalga is modified by temporal effects.Effects of ocean warming and acidification on the energy budget of an excavating sponge.Sponge bioerosion on changing reefs: ocean warming poses physiological constraints to the success of a photosymbiotic excavating sponge.Framework of barrier reefs threatened by ocean acidification.Bioerosion in a changing world: a conceptual framework.Bleaching events regulate shifts from corals to excavating sponges in algae-dominated reefs.Enhanced macroboring and depressed calcification drive net dissolution at high-CO2 coral reefs.Changing dynamics of Caribbean reef carbonate budgets: emergence of reef bioeroders as critical controls on present and future reef growth potential.Ocean warming and acidification have complex interactive effects on the dynamics of a marine fungal disease.Resilience in carbonate production despite three coral bleaching events in 5 years on an inshore patch reef in the Florida Keys.Quantification of chemical and mechanical bioerosion rates of six Caribbean excavating sponge species found on the coral reefs of Curaçao.The bioeroding sponge Cliona orientalis will not tolerate future projected ocean warming.Ecosystem‐based management of coral reefs under climate change.Effects of Global Warming and Ocean Acidification on Carbonate Budgets of Eastern Pacific Coral ReefsCoral resistance to ocean acidification linked to increased calcium at the site of calcificationRapid bioerosion in a tropical upwelling coral reefNutrient pollution disrupts key ecosystem functions on coral reefsSponge bioerosion accelerated by ocean acidification across species and latitudes?Submarine groundwater discharge drives biogeochemistry in two Hawaiian reefsOcean Acidification Changes Abiotic Processes but Not Biotic Processes in Coral Reef Sediments
P2860
Q27314791-E07120D7-9E8C-47DB-8609-C8B4FEE9C91EQ27329632-D251370C-C368-4EA4-A703-F9B6F150B065Q28602967-2AD91338-4626-43A1-9BD6-C243B1B25A4AQ28607605-39A4A9AD-4EC9-4861-96D3-8F6301F2892CQ30376332-BED8DF52-0138-4CEF-8545-6630D74BE939Q30444274-E27B33A6-233C-4F87-AB3E-0198C8B2F11BQ30611785-85B60050-6B2E-4610-ADDF-F31D1A01EDA9Q30619588-F96621E0-F06C-4B35-9C0A-AA1B214689EEQ30657776-BBD8A3E3-A59A-4F13-A096-389F90F53F62Q30860044-255F9634-810B-4702-998B-CCAE4D78DD2BQ30902989-2F0A8D40-B9C7-4A60-A291-1CFC6ABD3D5FQ30974499-2365CE65-BC95-4CE9-AFB6-05421C1E0371Q35108762-CBE433F6-C474-4BF5-B8B8-4B840C4D3A6BQ36331944-7D05C469-ABE3-4815-8E34-CCC3B6325DE7Q38323263-80E1FCBE-EAD3-475B-B6F4-4216F0B1B01FQ38411442-6522F320-7A69-4F9A-AFD6-14C6FC8603D8Q38630350-159A7B55-801B-4D47-9CC0-6010FE6C785FQ38657826-8BCA9EA6-5BBF-421D-818F-0B71739FF4A3Q38793925-81AD736D-07EB-4973-8650-193E9AFB0C42Q38857946-C55D311F-D476-477A-A020-5EBB98ABE71EQ38903324-0F2C8237-8E0B-41CF-A76A-3C6C04274D43Q39363377-8A15F81C-7249-4495-A90A-2C55993E0ADAQ41629661-D4195ACD-24A1-41C2-A004-4D978CDB1D2DQ44293644-1DB4ECF8-BC15-4029-9CE3-5B0EA49D53CAQ47190636-2300FCBB-AE06-483F-8AD5-8F5D45B4E325Q47705472-4A8FB86A-A395-43C6-AFA6-8D54D92781CFQ51063622-04B760D9-D2CC-4C0D-96ED-9D63603D43C3Q51188595-412E811A-87E7-4C26-9780-A8E75CE11C00Q51314161-03FC371E-B6F6-4CFF-AF48-3EA46429A176Q55129681-BC03C2ED-04DE-4C65-B1A3-8BC4D1789E93Q55233851-997AA7A4-6AD6-4267-9799-802550CDDB60Q55280633-BAC725DD-D039-4549-9C70-501B40899993Q55501677-229CFDA9-8632-4359-8D7E-D914042E623EQ56018433-0FCB332F-560F-466E-8C33-7B341B589A4EQ57144938-9CFE7C7C-4B10-4E42-B228-D6C089AA3016Q57213318-DC49E5DE-369A-4949-8E0D-7DAC864350BAQ57213944-2ECEF580-BBD8-47F8-9A33-DBE9CDFDBA4DQ57231294-698A363F-5A91-42D1-990F-11DE5CD6619FQ57705717-4B28032B-5630-4303-AFF7-6BE593F3B970Q57736236-665D6023-BCED-491B-9A43-D4E92BBB31C9
P2860
description
2012 nî lūn-bûn
@nan
2012 թուականին հրատարակուած գիտական յօդուած
@hyw
2012 թվականին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Ocean acidification accelerates reef bioerosion
@ast
Ocean acidification accelerates reef bioerosion
@en
Ocean acidification accelerates reef bioerosion
@nl
type
label
Ocean acidification accelerates reef bioerosion
@ast
Ocean acidification accelerates reef bioerosion
@en
Ocean acidification accelerates reef bioerosion
@nl
prefLabel
Ocean acidification accelerates reef bioerosion
@ast
Ocean acidification accelerates reef bioerosion
@en
Ocean acidification accelerates reef bioerosion
@nl
P2860
P50
P3181
P1433
P1476
Ocean acidification accelerates reef bioerosion
@en
P2093
Armin Form
P2860
P304
P3181
P356
10.1371/JOURNAL.PONE.0045124
P407
P577
2012-09-18T00:00:00Z