Add to ORKGTropical forests are predicted to harbor most of the insect diversity on earth, but few studies have been conducted to characterize insect communities in tropical forests. One major limitation is the lack of consensus on methods for insect collection. Deciding which insect trap to use is an important consideration for ecologists and entomologists, yet to date few study has presented a quantitative comparison of the results generated by standardized methods in tropical insect communities. Here, we investigate the relative performance of two flight interception traps, the windowpane trap, and the more widely used malaise trap, across a broad gradient of lowland forest types in French Guiana. The windowpane trap consistently collected signific...
In this paper, we compare five different types of traps currently used in biodiversity studies to co...
Baited pitfall traps (BPTs) and flight intercept traps (FITs) are the most common methods employed f...
Tropical forest canopies are unique environments with complex interactions, allowing for high levels...
Tropical forests are predicted to harbor most of the insect diversity on earth, but few studies have...
Arthropod communities were sampled weekly in the twelve permanent plots from August to November 2010...
Various trapping methods and techniques developed for entomological studies are inefficient in attra...
International audienceAssessing spider diversity remains a great challenge, especially in tropical h...
Three techniques for trapping saproxylic (dead wood associated) beetles are compared, based on a stu...
Insect populations are globally declining but standardized long‐term data to evaluate trends and con...
A review of most of the "non-fogging" methods which have been used to sample arthropods in tree cano...
Study by light-trap of the seasonal abundance of the forest insects in French Guyana. This study was...
There remains great uncertainty about how much tropical forest canopies contribute to global species...
In several countries, surveillance of insect vectors is accomplished with automatic traps. This stud...
Most studies about the insect community in rainforests only focus on the forest understory, and even...
Abstract To discuss the challenge of monitoring multi-species responses of tropical arthropods to di...
In this paper, we compare five different types of traps currently used in biodiversity studies to co...
Baited pitfall traps (BPTs) and flight intercept traps (FITs) are the most common methods employed f...
Tropical forest canopies are unique environments with complex interactions, allowing for high levels...
Tropical forests are predicted to harbor most of the insect diversity on earth, but few studies have...
Arthropod communities were sampled weekly in the twelve permanent plots from August to November 2010...
Various trapping methods and techniques developed for entomological studies are inefficient in attra...
International audienceAssessing spider diversity remains a great challenge, especially in tropical h...
Three techniques for trapping saproxylic (dead wood associated) beetles are compared, based on a stu...
Insect populations are globally declining but standardized long‐term data to evaluate trends and con...
A review of most of the "non-fogging" methods which have been used to sample arthropods in tree cano...
Study by light-trap of the seasonal abundance of the forest insects in French Guyana. This study was...
There remains great uncertainty about how much tropical forest canopies contribute to global species...
In several countries, surveillance of insect vectors is accomplished with automatic traps. This stud...
Most studies about the insect community in rainforests only focus on the forest understory, and even...
Abstract To discuss the challenge of monitoring multi-species responses of tropical arthropods to di...
In this paper, we compare five different types of traps currently used in biodiversity studies to co...
Baited pitfall traps (BPTs) and flight intercept traps (FITs) are the most common methods employed f...
Tropical forest canopies are unique environments with complex interactions, allowing for high levels...