Access the full text.
Sign up today, get DeepDyve free for 14 days.
D. Kachigamba, S. Ekesi, M. Ndungu, L. Gitonga, P. Teal, B. Torto (2012)
Evidence for Potential of Managing Some African Fruit Fly Species (Diptera: Tephritidae) Using the Mango Fruit Fly Host-Marking Pheromone, 105
(1939)
The Queensland fruit fly: observations on breeding and development
(2001)
EcoSim , Version 7 . 0 . Acquired Intelligence Inc . & Kesey - Bear , Montrose , Colorado [ WWW document ]
P. Duyck, P. David, S. Pavoine, S. Quilici (2008)
Can host‐range allow niche differentiation of invasive polyphagous fruit flies (Diptera: Tephritidae) in La Réunion?Ecological Entomology, 33
Alan Roberts, L. Stone (1990)
Island-sharing by archipelago speciesOecologia, 83
R. Prokopy, J. Ziegler, T. Wong (2004)
Deterrence of repeated oviposition by fruit-marking pheromone inCeratitis capitata (Diptera: Tephritidae)Journal of Chemical Ecology, 4
I. White, M. Elson-Harris (1992)
Fruit Flies of Economic Significance: Their Identification and Bionomics
R. Vargas, W. Walsh, E. Jang, J. Armstrong, Dale Kanehisa (1996)
Survival and Development of Immature Stages of Four Hawaiian Fruit Flies (Diptera: Tephritidae) Reared at Five Constant TemperaturesAnnals of The Entomological Society of America, 89
B. Roitberg, R. Prokopy (1984)
Host visitation sequence as a determinant of search persistence in fruit parasitic tephritid fliesOecologia, 62
(2001)
STATISTICA (Data Analysis Software), Version 6
Y. Carrière (1998)
Constraints on the evolution of host choice by phytophagous insectsOikos, 82
Vergani Vergani (1952)
La mosca del Mediterr�neo Ceratitis capitataBoletín de Sanidad Vegetal, 8
Fruit Fly (Tephritidae) Host Plant Database [WWW document
I. Kaplan, R. Denno (2007)
Interspecific interactions in phytophagous insects revisited: a quantitative assessment of competition theory.Ecology letters, 10 10
D. Papaj, B. Roitberg, S. Opp (1989)
SERIAL EFFECTS OF HOST INFESTATION ON EGG ALLOCATION BY THE MEDITERRANEAN FRUIT FLY: A RULE OF THUMB AND ITS FUNCTIONAL SIGNIFICANCEJournal of Animal Ecology, 58
P. Debach (1966)
The Competitive Displacement and Coexistence PrinciplesAnnual Review of Entomology, 11
(1996)
Hosts for Ceratitis capitata and Anastrepha fraterculus in Entre Ríos, Argentina. Fruit Fly Pests: A World Assessment of their Biology and Management
D. Segura, M. Vera, C. Cagnotti, N. Vaccaro, Olga Coll, S. Ovruski, J. Cladera (2006)
Relative Abundance of Ceratitis capitata and Anastrepha fraterculus (Diptera: Tephritidae) in Diverse Host Species and Localities of Argentina, 99
(2013)
Interacciones competitivas entre dos especies de mosca de la fruta : Ceratitis capitata y Anastrepha fraterculus ( Diptera : Tephritidae )
R. Macarthur (1974)
Mathematical Ecology and Its Place among the Sciences. (Book Reviews: Geographical Ecology. Patterns in the Distribution of Species)Science
S. Ovruski, P. Schliserman, M. Aluja (2003)
Native and introduced host plants of Anastrepha fraterculus and Ceratitis capitata (Diptera: Tephritidae) in northwestern Argentina.Journal of economic entomology, 96 4
M. Huston (1979)
A General Hypothesis of Species DiversityThe American Naturalist, 113
A. Azovsky (1996)
The effect of scale on congener coexistence : can molluscs and polychaetes reconcile beetles to ciliates ?Oikos, 77
P. Duyck, P. David, G. Junod, C. Brunel, Raphaël Dupont, S. Quilici (2006)
Importance of competition mechanisms in successive invasions by polyphagous tephritids in La Reunion.Ecology, 87 7
V. Navarro‑Llopis, S. Vacas, M. Zarzo, J. Primo (2014)
Dispersal ability of Ceratitis capitata (Diptera: Tephritidae): edge effect in area‐wide treatmentsJournal of Applied Entomology, 138
S. Juliano, L. Lounibos (2005)
Ecology of invasive mosquitoes: effects on resident species and on human health: Invasive mosquitoesEcology Letters, 8
P. Duyck, P. David, S. Quilici (2004)
A review of relationships between interspecific competition and invasions in fruit flies (Diptera: Tephritidae)Ecological Entomology, 29
(2000)
Evolution of fruit fly oviposition behavior
M. Aluja, F. Díaz‐Fleischer, D. Papaj, Gloria Lagunes, J. Sivinski (2001)
Effects of age, diet, female density, and the host resource on egg load in Anastrepha ludens and Anastrepha obliqua (Diptera: Tephritidae).Journal of insect physiology, 47 9
J. Levine (2008)
Biological invasionsCurrent Biology, 18
R. Beaver (1977)
NON-EQUILIBRIUM 'ISLAND' COMMUNITIES: DIPTERA BREEDING IN DEAD SNAILSJournal of Animal Ecology, 46
M. Aluja, J. Piñero, Isabel Jácome, F. Díaz‐Fleischer, J. Sivinski (1999)
Behavior of flies in the genus anastrepha (trypetinae: Toxotrypanini)
Aluja (2001)
975Journal of Insect Physiology, 47
Connor Connor, Simberloff Simberloff (1979)
Interspecific competition and species co?occurrence patterns on islands: null models and the evaluation of evidenceOikos, 41
S. Reitz, J. Trumble (2003)
Competitive displacement among insects and arachnids.Annual review of entomology, 47
R. Prokopy, A. Malavasi, J. Morgante (1982)
Oviposition deterring pheromone inAnastrepha fraterculus fliesJournal of Chemical Ecology, 8
M. Thomas, D. Holway (2005)
Condition-specific competition between invasive Argentine ants and Australian IridomyrmexJournal of Animal Ecology, 74
J. Carey (1984)
Host‐specific demographic studies of the Mediterranean fruit fly Ceratitis capitataEcological Entomology, 9
Aluja (2000)
375
P. Duyck, P. David, S. Quilici (2006)
Climatic niche partitioning following successive invasions by fruit flies in La Réunion.The Journal of animal ecology, 75 2
J. Sanderson, M. Moulton, R. Selfridge (1998)
Null matrices and the analysis of species co-occurrencesOecologia, 116
Allman (1939)
499Agricultural Gazzete of New South Wales, 50
L. Lawlor, J. Smith (1976)
The Coevolution and Stability of Competing SpeciesThe American Naturalist, 110
M. Mangel, B. Roitberg (1989)
Dynamic information and host acceptance by a tephritid fruit flyEcological Entomology, 14
F. Ayala, M. Gilpin, J. Ehrenfeld (1973)
Competition between species: theoretical models and experimental tests.Theoretical population biology, 4 3
F. Díaz‐Fleischer, M. Aluja (2003)
Clutch size in frugivorous insects as a function of host firmness: the case of the tephritid fly Anastrepha ludensEcological Entomology, 28
N. Gotelli (2001)
Research frontiers in null model analysisGlobal Ecology and Biogeography, 10
Ara, J. S., Oachim, B. –, Ravo, Dair, F. A., Ernandes, Érgio, A., De, Ortoli, Ernando, Z. S., Ucoloto (2002)
Oviposition Behavior of Ceratitis capitata Wiedemann ( Diptera : Tephritidae ) : Association Between Oviposition Preference and Larval Performance in Individual Females
N. Gotelli (2000)
Null model analysis of species co-occurrence patternsEcology, 81
J. Lawton, D. Strong (1981)
Community Patterns and Competition in Folivorous InsectsThe American Naturalist, 118
S. Juliano, L. Lounibos (2005)
Ecology of invasive mosquitoes: effects on resident species and on human health.Ecology letters, 8 5
H. Jaldo, M. Gramajo, E. Willink (2001)
Mass rearing of Anastrepha fraterculus (Diptera: tephritidae): a preliminary strategyFlorida Entomologist, 84
N. Gotelli (1997)
COMPETITION AND COEXISTENCE OF LARVAL ANT LIONSEcology, 78
I. Joachim‐Bravo, O. Fernandes, S. Bortoli, F. Zucoloto (2001)
Oviposition Behavior of Ceratitis capitata Wiedemann (Diptera: Tephritidae): Association Between Oviposition Preference and Larval Performance in Individual FemalesNeotropical Entomology, 30
N. Papadopoulos, B. Katsoyannos, J. Carey (2002)
Demographic Parameters of the Mediterranean Fruit Fly (Diptera: Tephritidae) Reared in Apples, 95
Lingling Xu, C. Zhou, Ying Xiao, Peifen Zhang, Ying Tang, Yijuan Xu (2012)
Insect oviposition plasticity in response to host availability: the case of the tephritid fruit fly Bactrocera dorsalisEcological Entomology, 37
R. Prokopy, D. Papaj (1999)
Behavior of Flies of the Genera Rhagoletis, Zonosemata, and Carpomya (Trypetinae: Carpomyina)
R. Prokopy, B. Roitberg (2001)
Joining and avoidance behavior in nonsocial insects.Annual review of entomology, 46
R. Denno, and McClure, J. Ott (1995)
Interspecific interactions in phytophagous insects : competition reexamined and resurrectedAnnual Review of Entomology, 40
L. Stone, Alan Roberts (1990)
The checkerboard score and species distributionsOecologia, 85
Liquido Liquido, Shinoda Shinoda, Cunningham Cunningham (1991)
Host plants of the Mediterranean fruit fly (Diptera: Tephritidae): an annotated world reviewMiscellaneous Publications of the Entomological Society of America, 77
Aluja (2006)
367Journal of Chemical Ecology, 32
C. Nufio, D. Papaj (2001)
Host marking behavior in phytophagous insects and parasitoidsEntomologia Experimentalis et Applicata, 99
A. Malavasi, J. Morgante, R. Prokopy (1983)
Distribution and Activities of Anastrepha fraterculus (Diptera: Tephritidae) Flies on Host and Nonhost TreesAnnals of The Entomological Society of America, 76
A. Meats, C. Smallridge (2007)
Short‐ and long‐range dispersal of medfly, Ceratitis capitata (Dipt., Tephritidae), and its invasive potentialJournal of Applied Entomology, 131
L. Oroño, Patricia Albornoz-Medina, S. Núñez-Campero, G. Nieuwenhove, L. Bezdjian, Cristina Martin, P. Schliserman, S. Ovruski (2008)
update of host P lant list of Anastrepha fraterculus and Ceratitis capitata in Argentina
(1989)
Tephritidae) in La Réunion? Ecological Entomology
M. Kenis, M. Auger-Rozenberg, A. Roques, L. Timms, C. Péré, M. Cock, J. Settele, S. Augustin, C. Lopez‐Vaamonde (2008)
Ecological effects of invasive alien insectsBiological Invasions, 11
J. Eichel (2016)
The Distribution And Abundance Of Animals
María Utgés (2013)
Supervivencia y dispersión en moscas de los frutos del género Anastrepha (Diptera: Tephritidae): efecto de la alimentación post-teneral
L. Díaz, F. Murúa, J. Acosta, Jorge Escobar (2008)
Capacidad dispersiva de Ceratitis capitata (Diptera: Tephritidae) entre valles agrícolas en San Juan, ArgentinaRevista de la Sociedad Entomológica Argentina, 67
E. Connor, D. Simberlof (1983)
Interspecific competition and species co - occurrence patterns on islands: null models and the evalu
M. Bateman (1972)
The Ecology of Fruit FliesAnnual Review of Entomology, 17
J. Wiens (1984)
On understanding a non-equilibrium world:myth and reality in community patterns and processes
W. Atkinson, B. Shorrocks (1981)
Competition on a Divided and Ephemeral Resource: A Simulation ModelJournal of Animal Ecology, 50
M. Aluja, F. Díaz‐Fleischer (2006)
Foraging Behavior of Anastrepha Ludens, A. obliqua, and A. serpentina in Response to Feces Extracts Containing Host Marking PheromoneJournal of Chemical Ecology, 32
M. Delprat (1999)
Estudio de reordenamientos polimórficos e inducidos en los cromosomas politénicos de la mosca del Mediterráneo: Ceratitis capitata
A. Shoukry, M. Hafez (1979)
STUDIES ON THE BIOLOGY OF THE MEDITERRANEAN FRUIT FLY CERATITIS CAPITATAEntomologia Experimentalis et Applicata, 26
(1975)
Assembly of species communities. Ecology and Evolution of Communities
A. Birke, M. Aluja (2011)
Anastrepha ludens and Anastrepha serpentina (Diptera: Tephritidae) do not Infest Psidium guajava (Myrtaceae), but Anastrepha obliqua Occasionally Shares this Resource with Anastrepha striata in Nature, 104
D. Papaj, R. Messing (1996)
Functional shifts in the use of parasitized hosts by a tephritid fly: the role of host qualityBehavioral Ecology, 7
M. Zart, O. Fernandes, M. Botton (2010)
Biology and fertility life table of the South American fruit fly Anastrepha fraterculus on grapeBulletin of Insectology, 63
J. Wiens (1989)
Spatial Scaling in EcologyFunctional Ecology, 3
(1984)
Interspecific competition in insects
Regina Sugayama, A. Kovaleski, P. Liedo, A. Malavasi (1998)
Colonization of a New Fruit Crop by Anastrepha fraterculus (Diptera: Tephritidae) in Brazil: a Demographic AnalysisEnvironmental Entomology, 27
The avoidance of parasitized or infested hosts, which is a common phenomenon in parasitic wasps and phytophagous insects, may act both intra‐ and interspecifically. Most studies on chemically‐mediated avoidance of interspecific competition in insects have been conducted at the individual level. The role of this behaviour on the spatial distribution of offspring of sympatric species with overlapping host ranges has been overlooked. In the present study, two analytical approaches were used to investigate the co‐infestation patterns of the fruit flies Anastrepha fraterculus (Wiedemann) (Diptera: Tephritidae) and Ceratitis capitata (Wiedemann) (Diptera: Tephritidae), aiming to unravel the importance of cross‐species infestation recognition in nature. Guava fruit were sampled in an area of coexistence of these two fruit flies and individually categorized as non‐infested, infested by one of the species or infested by both species. The frequency of each type of fruit was compared with the frequency distributions expected under two models: an independent oviposition model and a competition avoidance model. As an alternative approach, co‐occurrence patterns were evaluated using null models. The results showed that avoidance of competition could be occurring in nature, although only in a few cases in which infestation levels are moderate. The two approaches revealed that the spatial scale has significant impact on the resulting co‐occurrence patterns, such that opposite behaviours towards infested fruit are inferred at the largest (mainly aggregated oviposition pattern) versus the smallest scale (mainly independent oviposition pattern). For the system under investigation, our findings suggest that the avoidance of infested fruit does not contribute, or at least not strongly, to the coexistence of the two species.
Agricultural and Forest Entomology – Wiley
Published: Aug 1, 2015
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.