about
Vertical transmission as the key to the colonization of Madagascar by fungus-growing termites?Comparison of Euryarchaea strains in the guts and food-soil of the soil-feeding termite Cubitermes fungifaber across different soil types.A comprehensive phylogenetic analysis of termites (Isoptera) illuminates key aspects of their evolutionary biology.Accelerated species inventory on Madagascar using coalescent-based models of species delineation.The evolution of fungus-growing termites and their mutualistic fungal symbionts.Experimentally testing and assessing the predictive power of species assembly rules for tropical canopy antsIdentifying possible sister groups of Cryptocercidae+Isoptera: a combined molecular and morphological phylogeny of Dictyoptera.Detection of mitochondrial COII DNA sequences in ant guts as a method for assessing termite predation by antsLogging cuts the functional importance of invertebrates in tropical rainforestSuppression of savanna ants alters invertebrate composition and influences key ecosystem processes.Consistency of effects of tropical-forest disturbance on species composition and richness relative to use of indicator taxa.Symbiogenesis: beyond the endosymbiosis theory?Ants are the major agents of resource removal from tropical rainforests.Fungus-growing termites originated in African rain forest.Woody encroachment slows decomposition and termite activity in an African savanna.From chemical risk assessment to environmental quality management: the challenge for soil protection.Anthropogenic effects on interaction outcomes: examples from insect-microbial symbioses in forest and savanna ecosystemsNo evidence for an elephant-termite feedback loop in Sand Forest, South AfricaAnt diversity as a direct and indirect driver of pselaphine rove beetle (Coleoptera: Staphylinidae) functional diversity in tropical rainforests, Sabah, Malaysian BorneoDarker ants dominate the canopy: Testing macroecological hypotheses for patterns in colour along a microclimatic gradientTermites mitigate the effects of drought in tropical rainforestTermites can decompose more than half of deadwood in tropical rainforest
P50
Q28748445-B9175B85-8F12-43A7-80F7-8137930564C8Q33204529-AD5DBF3A-1425-43A0-B39F-59E65AE6EC2AQ33290597-7A515E77-36CD-49C9-AEAA-675E3FCC4C4EQ33595547-D99B4B0D-ACDF-478E-8631-5BA7624FD488Q34380250-BFEAAA71-EC82-4314-B5D0-7BA1C90B78F2Q35127607-3326DD03-D737-441E-A978-75CEA19BB96BQ35240765-AB959C47-BD9F-418A-A4F7-915544BF21B4Q35326916-2033A36A-255B-42FB-9704-78CDB080F279Q35487023-129EEC12-79E6-4CEF-B61C-F401BD7DDA4DQ36086209-BA3B7155-A6DA-4DD1-AAE8-2DC92B43A69EQ36226505-E6B766FA-848A-47FB-A73E-AC67B21EEFE3Q38368096-C8358B33-33DA-4DBD-9305-B33379FBC5C3Q38368330-E2A95213-CDC8-45CD-A8A5-B3EAD40194EEQ38852063-DFB71DE7-681C-4A79-B9DB-A012BF98D125Q51148882-465C5671-DA9B-4602-B1EB-7E54BB317061Q51622310-A5C903AA-12E0-4AD9-B651-BA08AE117ECEQ56751515-4BEFF34F-5978-4AFD-9161-A2BC6A308D8CQ57248662-B222C875-19A6-47FC-8150-F8BAB1CB5127Q88418429-581C9BFB-0695-48C8-9A72-45C9586D4ECFQ90866137-82EC9968-21E4-403A-BA86-3CA09366AF37Q90989012-9308E254-FA73-41D6-B554-EDD1C389AA85Q91704098-403C6270-A8FC-4AB6-9D09-09EAC295252D
P50
description
researcher
@en
name
Paul Eggleton
@ast
Paul Eggleton
@en
Paul Eggleton
@es
Paul Eggleton
@nl
type
label
Paul Eggleton
@ast
Paul Eggleton
@en
Paul Eggleton
@es
Paul Eggleton
@nl
prefLabel
Paul Eggleton
@ast
Paul Eggleton
@en
Paul Eggleton
@es
Paul Eggleton
@nl
P106
P1153
7006176421
P31
P496
0000-0002-1420-7518