scholarly article | Q13442814 |
P50 | author | Dailos Hernández-Brito | Q89071579 |
José L Tella | Q92651732 | ||
Martina Carrete | Q35703606 | ||
Esther Sebastián-González | Q57080469 | ||
Francisco V Dénes | Q59685044 | ||
P2093 | author name string | Guillermo Blanco | |
Fernando Hiraldo | |||
Eduardo Gómez-Llanos | |||
Erica C Pacífico | |||
José A Díaz-Luque | |||
Pedro Romero-Vidal | |||
P2860 | cites work | Feeding biology of the Greyheaded Parrot, Poicephalus fuscicollis suahelicus (Reichenow), in Northern Province, South Africa | Q60549261 |
Primary seed dispersal by three Neotropical seed-predating primates (Cacajao melanocephalus ouakary, Chiropotes chiropotes and Chiropotes albinasus) | Q61910011 | ||
Network structure embracing mutualism-antagonism continuums increases community robustness | Q89126705 | ||
How To Be a Predator | Q105046805 | ||
Testing for phylogenetic signal in comparative data: behavioral traits are more labile | Q28207922 | ||
The architecture of mutualistic networks minimizes competition and increases biodiversity | Q29013610 | ||
The global diversity of birds in space and time | Q29547247 | ||
Picante: R tools for integrating phylogenies and ecology | Q29616782 | ||
Food limitation leads to behavioral diversification and dietary specialization in sea otters | Q33314713 | ||
The allometry of parrot BMR: seasonal data for the Greater Vasa Parrot, Coracopsis vasa, from Madagascar | Q33937073 | ||
Nested species-rich networks of scavenging vertebrates support high levels of interspecific competition | Q35968023 | ||
Parrots as key multilinkers in ecosystem structure and functioning | Q36106913 | ||
Endangered plant-parrot mutualisms: seed tolerance to predation makes parrots pervasive dispersers of the Parana pine | Q37193119 | ||
Determinants of fruit set in Yucca whipplei: Reproductive expenditure vs. pollinator availability | Q39540472 | ||
Evolution and coevolution in mutualistic networks | Q43981197 | ||
Indirect effects drive coevolution in mutualistic networks. | Q45954882 | ||
THE EVOLUTION OF INFLORESCENCE SIZE IN ASCLEPIAS (ASCLEPIADACEAE). | Q47326854 | ||
Testing the heterospecific attraction hypothesis with time-series data on species co-occurrence. | Q51698245 | ||
Diplochory: are two seed dispersers better than one? | Q51727353 | ||
Optimal foraging, the marginal value theorem | Q52855058 | ||
A Day in the Life of a Seed: Movements and Fates of Seeds and Their Implications for Natural and Managed Systems | Q55839204 | ||
Seed Predation by Animals | Q55921631 | ||
Plant-Animal Mutualistic Networks: The Architecture of Biodiversity | Q56136814 | ||
Economic Decision-Making in Parrots | Q57168134 | ||
Simple assessments of age and spatial population structure can aid conservation of poorly known species | Q60298239 | ||
Flower and Fruit Abortion: Proximate Causes and Ultimate Functions | Q60305302 | ||
Ecological and socio-economic factors affecting extinction risk in parrots | Q60310523 | ||
P433 | issue | 1 | |
P304 | page(s) | 15280 | |
P577 | publication date | 2019-10-24 | |
P1433 | published in | Scientific Reports | Q2261792 |
P1476 | title | The extent, frequency and ecological functions of food wasting by parrots | |
P478 | volume | 9 |
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