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J. Frouz (1999)
Use of soil dwelling Diptera (Insecta, Diptera) as bioindicators: a review of ecological requirements and response to disturbanceAgriculture, Ecosystems & Environment, 74
I. Wright, B. Chessman, P. Fairweather, L. Benson (1995)
Measuring the impact of sewage effluent on the macroinvertebrate community of an upland stream: The effect of different levels of taxonomic resolution and quantificationAustral Ecology, 20
S. Peck, B. Mcquaid, C. Campbell (1998)
Using Ant Species (Hymenoptera: Formicidae) as a Biological Indicator of Agroecosystem ConditionEnvironmental Entomology, 27
(2004)
The Royal Entomological Society, Agricultural and Forest Entomology
N. Straalen, C. Pankhurst, B. Doube, V. Gupta (1997)
Community structure of soil arthropods as a bioindicator of soil health.
Malavolta Malavolta, Delrio Delrio, Boller Boller (2002)
IOBC Technical Guidelines III. Guidelines for integrated production of olivesIOBC WPRS Bulletin, 25
D. Sparks, R. Som (1974)
A Manual of Sampling TechniquesApplied statistics, 23
Ugo Cirio (1997)
Productos agroquímicos e impacto ambiental en olivicultura
T. New (2000)
How Useful are Ant Assemblages for Monitoring Habitat Disturbance on Grasslands in South Eastern Australia?Journal of Insect Conservation, 4
N. Straalen (1997)
The development of a bioindicator system for soil acidity based on arthropod pH preferencesJournal of Applied Ecology, 34
J. Gray, K. Clarke, R. Warwick, J. Hobbs (1990)
Detection Of Initial Effects Of Pollution On Marine Benthos - An Example From The Ekofisk And Eldfisk Oilfields North-SeaMarine Ecology Progress Series, 66
Arthropods for the evaluation of olive management 119
(1999)
Estudio sobre la entomofauna de un olivar en la provincia de Granada, durante el periodo de vuelo de la generación antófaga de Prays oleae (Lep. Yponomeutidae)
T. Morris (1997)
Interrelaciones entre olivos, plagas y depredadores
(1994)
Selecting arthropod ‘indicator species’ for environmental impact assessment of pesticides in field studies
T. Morris, Mercedes Campos, N. Kidd, M. Jervis, W. Symondson (1999)
Dynamics of the predatory arthropod community in Spanish olive grovesAgricultural and Forest Entomology, 1
J. Holland, M. Luff (2000)
The Effects of Agricultural Practices on Carabidae in Temperate AgroecosystemsIntegrated Pest Management Reviews, 5
P. Kevan (1999)
Pollinators as bioindicators of the state of the environment: species, activity and diversityAgriculture, Ecosystems & Environment, 74
Sda Smith, R. Simpson (1993)
Effects of pollution on holdfast macrofauna of the kelp Ecklonia radiata :discrimination at different taxonomic levelsMarine Ecology Progress Series, 96
G. Iperti (1999)
Biodiversity of predaceous coccinellidae in relation to bioindication and economic importanceAgriculture, Ecosystems & Environment, 74
K. Brown (1997)
Diversity, disturbance, and sustainable use of Neotropical forests: insects as indicators for conservation monitoringJournal of Insect Conservation, 1
(1986)
Traité d’Entomologie Oléicole
G. Fauvel (1999)
Diversity of Heteroptera in agroecosystems: role of sustainability and bioindicationAgriculture, Ecosystems & Environment, 74
(1993)
A history of biological monitoring using benthic macroinvertebrates. Freshwater Biomonitoring and Benthic Macroinvertebrates (ed
(1986)
Traite´d'Entomologie Ole´icole. Consejo Oleı´cola Internacional
J. Everts, B. Aukema, R. Hengeveld, J. Koeman (1989)
Side-effects of pesticides on ground-dwelling predatory arthropods in arable ecosystems.Environmental pollution, 59 3
(1991)
Enfermedades y Plagas Del Olivo. Riquelme y Vargas
I. Redolfi, A. Tinaut, F. Pascual, M. Campos (1999)
Qualitative aspects of myrmecocenosis (Hym., Formicidae) in olive orchards with different agricultural management in SpainJournal of Applied Entomology, 123
A. Bueno, M. Torres (2000)
Introducción al conocimiento de la entomofauna del olivar en la provincia de Jaén: Aspectos cuantitativos (II), 26
M. Campos, Manuel Civantos (2000)
Técnicas de cultivo del olivo y su incidencia sobre las plagas
R. Cavalloro (1985)
Integrated Pest Control in Olive Groves
C. Malavolta, G. Delrio, E. Boller (2002)
Guidelines for integrated production of olives
S. Ferraro, F. Cole (1992)
Taxonomic level sufficient for assessing a moderate impact on macrobenthic communities in Puget Sound, Washington, USACanadian Journal of Fisheries and Aquatic Sciences, 49
M. Dennison, A. Turner (1995)
Biosensors for environmental monitoring.Biotechnology advances, 13 1
Abstract 1 The presence and abundance of arthropods were compared in three olive orchards under organic, integrated and conventional management regimes. In each olive orchard, trees were sampled in the canopy by beating branches and soil arthropods by placing pitfall traps. Contrary to expectations, the highest abundance of arthropods occurred in the integrated management orchard. The most abundant groups were Formicidae and the species Euphyllura olivinae (Homoptera: Psyllidae). 2 Canopies and the soil under the tree canopy (interior soil) were selected as the most informative sites for sampling. The months with the strongest differences were May, June and July, especially June. In the canopy, Araneae, Coleoptera, Diptera, Heteroptera, Hymenoptera, Homoptera, Lepidoptera, Neuroptera and Thysanoptera were the most abundant, and showed significant differences in abundance among orchards with different management regimes. Moreover, in the canopies, Coleoptera and Lepidoptera showed a seasonal pattern of abundance and consistent significant differences between the organic orchard vs. the integrated and conventional ones in both years of study. In the soil, 12 orders showed significant differences in abundance among management regimes at some point of the sampling season. 3 In a search for biological indicators that could help to distinguish between management regimes, a discriminant analysis applied to the data indicated that only the samples from the canopy were classified according to their management regime in a consistent way over time. The groups selected by the analysis to establish differences among management regimes were Coleoptera, Diptera, Heteroptera, Lepidoptera and Thysanoptera. The analysis applied to compare organic vs. non‐organic olive orchards, again identified Coleoptera and Lepidoptera as suitable groups. The results suggest that these two orders are potential bioindicators to distinguish, in a simple way, organic olive orchards from non‐organic ones.
Agricultural and Forest Entomology – Wiley
Published: May 1, 2004
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