Regional abundance of a planthopper pest: the effect of host patch area and configuration

Grilli, Mariano P.; Bruno, Martín A.

doi:10.1111/j.1570-7458.2006.00498.x

Cited by 18 publications

(26 citation statements)

References 61 publications

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“…This means that the abundance of L. striatellus is driven by the surrounding landscape, especially in a small and segmented agricultural landscape. It is consistent with the recent report by Grilli [30] who concluded that the proximity of other host patches had an effect on the abundance of the dispersive fraction of the population of D. Kuscheli in Argentina's central plain.…”

Section: Discussionsupporting

confidence: 82%

“…In comparison with our study, previous studies were mostly conducted at larger spatial scales [4,27], because their research subjects had stronger flying or moving capabilities than L. striatellus. Even though the research subject belongs to the same family of Delphacidae (Delphacodes kuscheli) like our study, the spatial scale at the agricultural landscape had over 2000 m for a radius buffer [19,[28][29][30][31]. Our result showed that for L. striatellus, its host habitat's composition in the study region was extremely segmented and heterogeneous.…”

Section: Discussionmentioning

confidence: 81%

“…The maximal radius was set at 200 m to avoid artificially large correlations due to overlapping buffers [27]. Landscape composition and configuration can affect planthopper dynamics independently and interactively [19,[28][29][30][31], the measures of landscape composition and configuration would be calculated in this study.…”

Section: Landscape Metricsmentioning

confidence: 99%

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The Effect of Landscape Composition on the Abundance of Laodelphax striatellus Fallén in Fragmented Agricultural Landscapes

Liu

Chen

et al. 2016

Land

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Abstract:The spatial distribution of crop and non-crop habitats over segmented agricultural landscapes could be used as a means to reduce insect pest populations. Seven land cover categories such as wheat, rapeseed, vegetable, water, built-up, paved road, and unsurfaced road were extracted from GeoEye satellite images dating from late May to late June of 2010. Three diversity metrics and three evenness metrics were estimated from the abovementioned land cover categories for quantifying the effect of landscape composition on nymphal and adult Laodelphax striatellus Fallén. The degree of correlation between the proportion of crop cover and adjacent spatial scales (r: 0.651-0.983) was higher than the correlation between the proportion of crop cover and nonadjacent spatial scales (r: −0.255-0.896). While the degree of correlation between diversity indices and abundance of L. striatellus decreased gradually when the spatial scales varied from large (>100 m radius buffer) to small (<100 m). Our study suggests that when using natural biological pest control and ecological engineering practices in the rural-urban fringes, the crop field's width should be less than 200 m and increasing vegetation diversity within such a scale will be helpful to regulate the insect pests under a certain density.

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Section: Discussionsupporting

confidence: 82%

Section: Discussionmentioning

confidence: 81%

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The Effect of Landscape Composition on the Abundance of Laodelphax striatellus Fallén in Fragmented Agricultural Landscapes

Liu

Chen

et al. 2016

Land

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“…Such positive effects may have contributed to the emergence and maintenance of MRDV since high planthopper populations have been found to increase the incidence of fijivirus (Grilli and Bruno 2007).…”

Section: Discussionmentioning

confidence: 99%

Impact of 9 years of Bt-maize cultivation on the distribution of maize viruses

Achón

Alonso-Dueñas

2008

Transgenic Res

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This study assesses the effect of Bt-maize on the distribution of maize viruses. Random surveys were conducted in Spain between 2001 and 2006 to evaluate the occurrence of maize viruses in Bt-maize cultivation areas and in areas where this crop had not been introduced. Maize dwarf mosaic virus (MDMV) was the predominant virus in Bt-areas, and Maize rough dwarf virus (MRDV) was the most predominant one in non-Bt-areas, with MRDV an emergent virus in both types of areas. A decline in the occurrence of MDMV and an increase in that of Sugarcane mosaic virus was observed in Bt-areas. Additionally, data obtained over 6 years in experimental fields showed non-significant differences between the infection rates exhibited by two generations of Bt varieties and the non-transformed isogenics varieties for any of the viruses. Our data suggest that differences in virus distribution are linked to the genetic background of the maize varieties and the distribution of virus reservoirs rather than to Bt-maize cultivation.

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“…Connectivity is apparent at scales from the centimetre-scale movement of rotifers to food patches (Ignoffo et al 2005) to longdistance bird migration (Alerstam et al 2007). From a conceptual point of view, connectivity is crucial in a broad spectrum of contexts from conservation (Jones et al 2007) and pest and disease vector management (Grilli & Bruno 2007) to gene flow (Boulet et al 2007), the generation of species diversity (Genner et al 2007), the regulation of competitive advantage (Hagen et al 2007) and metapopultion dynamics (Hanski 1998).…”

Section: Introductionmentioning

confidence: 99%

Consequences of ecological connectivity: the coastal ecosystem mosaic

Sheaves¹

2009

Mar. Ecol. Prog. Ser.

309

216

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Connectivity links habitats in space and time. It is a key process that facilitates many life-history functions of myriad species in a variety of contexts over a wide range of scales. Perhaps its most obvious application is to the multifaceted linkages among the diverse habitat units comprising ecosystem complexes like the coastal ecosystem mosaic (CEM) -the tightly interlinked coastal, estuarine, wetland and freshwater habitats at the interface of land and sea. The ability to utilise this diversity of connected habitats is integral to the life histories of a broad spectrum of organisms, with connectivity between habitats being crucial to important functions like nursery utilisation. Although connectivity is an obvious feature of the CEM, investigation of its implications has largely been restricted to the migration of organisms. However, connectivity has much broader conceptual relevance. It is a pervasive and multifaceted process affecting and enabling the lives of organisms over the full range of conceptual scales, with ecosystem components connected by a diversity of factors, including physical and biological translocation of nutrients, ontogenetic, life history, spawning and feeding migrations, food-web dynamics, predator-prey interactions, and many more. All of these play crucial roles in structuring biological populations, communities and assemblages, and in driving the biological processes that support them. Moreover, connectivity is a prominent and necessary component of ecological concepts, ranging from estuarine dependence and metapopulation dynamics to foraging arena theory. Considering connectivity as a multifaceted process leads to specific hypotheses about the functioning of the CEM and similar ecosystem complexes. KEY WORDS: Connectivity · Coastal ecosystems · Estuarine · Wetland · Ecosystem interactionsResale or republication not permitted without written consent of the publisher

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Regional abundance of a planthopper pest: the effect of host patch area and configuration

Cited by 18 publications

References 61 publications

The Effect of Landscape Composition on the Abundance of Laodelphax striatellus Fallén in Fragmented Agricultural Landscapes

The Effect of Landscape Composition on the Abundance of Laodelphax striatellus Fallén in Fragmented Agricultural Landscapes

Impact of 9 years of Bt-maize cultivation on the distribution of maize viruses

Consequences of ecological connectivity: the coastal ecosystem mosaic

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