The Temporal and Spatial Variation of Arthropod Associations Inhabiting Non-Crop Vegetation in a Sisal Crop, <i>Agave sisalana</i> in the Caatinga Biome

The Temporal and Spatial Variation of Arthropod Associations Inhabiting Non-Crop Vegetation in a Sisal Crop, <i>Agave sisalana</i> in the Caatinga Biome

Sisal, <i>Agave sisalana</i> Perrine, is cultivated for fiber production, with Brazil being its leading producer. Nowadays, given the increasing interest in organic products, the market for sisal could become an economical alternative for rural areas with low economic inputs. However, si...

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Main Authors: Sara Samanta da Silva Brito, María Villa, Jacinto Benhadi-Marín, Franceli da Silva, José Alberto Pereira
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Applied Sciences
Subjects:
biodiversity
semi-arid
arthropod–plant interactions
spatial pattern
sampling protocol
Online Access:https://www.mdpi.com/2076-3417/11/14/6498
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spelling doaj-f2b345d3f3a1403b860fa4595d0737ca2021-07-23T13:29:49ZengMDPI AGApplied Sciences2076-34172021-07-01116498649810.3390/app11146498The Temporal and Spatial Variation of Arthropod Associations Inhabiting Non-Crop Vegetation in a Sisal Crop, <i>Agave sisalana</i> in the Caatinga BiomeSara Samanta da Silva Brito0María Villa1Jacinto Benhadi-Marín2Franceli da Silva3José Alberto Pereira4Centre for Agricultural, Environmental and Biological Sciences, Federal University of Recôncavo da Bahia/UFRB, Cruz das Almas/BA, Bahia 44380-000, BrazilCentro de Investigação de Montanha (CIMO), Instituto Politécnico de Bragança, Campus de Santa Apolónia, 5300-253 Bragança, PortugalCentro de Investigação de Montanha (CIMO), Instituto Politécnico de Bragança, Campus de Santa Apolónia, 5300-253 Bragança, PortugalCentre for Agricultural, Environmental and Biological Sciences, Federal University of Recôncavo da Bahia/UFRB, Cruz das Almas/BA, Bahia 44380-000, BrazilCentro de Investigação de Montanha (CIMO), Instituto Politécnico de Bragança, Campus de Santa Apolónia, 5300-253 Bragança, PortugalSisal, <i>Agave sisalana</i> Perrine, is cultivated for fiber production, with Brazil being its leading producer. Nowadays, given the increasing interest in organic products, the market for sisal could become an economical alternative for rural areas with low economic inputs. However, sisal is threatened by different pests and diseases. Conservation biological control could contribute to the limitation of these plant enemies, but this agroecosystem is poorly known. In this context, we aimed: (i) to identify the diversity of plants and arthropods and their potential relations, (ii) to study the spatial patterns of arthropods and plants in function of the proximity to the margin of the field, and (iii) to determine the minimum sampling effort needed to record the occurring biodiversity in a sisal crop. Arthropods were sampled using pit-fall traps located close to the border and in the inner plant of the sisal crop from June to September. Simultaneously, plant species and their abundance in quadrats next to each pitfall were recorded. Diversity indexes were calculated to describe the biodiversity, a redundancy analysis was performed to analyze relations among arthropods and plants and the spatial distribution was evaluated using the non-parametric Wilcoxon rank-sum test. The redundancy analysis and the Wilcoxon test revealed a temporal and spatial distribution of arthropods and plants during the period of study. Results indicated (i) similar temporal diversity patterns from June to July for both plants and arthropods, with a maximum in July, whereas in September the biodiversity increased for arthropods and decreased for plants; (ii) the importance of particular plant species for Collembola; and (iii) that arthropods seem to colonize the sisal crop from the fields beyond the crop during the rainy season. These results provide new information about arthropods and plant biodiversity from an agroecosystem in a semi-arid region and raise further queries about the management of sisal crops.https://www.mdpi.com/2076-3417/11/14/6498biodiversitysemi-aridarthropod–plant interactionsspatial patternsampling protocol
collection DOAJ
language English
format Article
sources DOAJ
author Sara Samanta da Silva Brito
María Villa
Jacinto Benhadi-Marín
Franceli da Silva
José Alberto Pereira
spellingShingle Sara Samanta da Silva Brito
María Villa
Jacinto Benhadi-Marín
Franceli da Silva
José Alberto Pereira
The Temporal and Spatial Variation of Arthropod Associations Inhabiting Non-Crop Vegetation in a Sisal Crop, <i>Agave sisalana</i> in the Caatinga Biome
Applied Sciences
biodiversity
semi-arid
arthropod–plant interactions
spatial pattern
sampling protocol
author_facet Sara Samanta da Silva Brito
María Villa
Jacinto Benhadi-Marín
Franceli da Silva
José Alberto Pereira
author_sort Sara Samanta da Silva Brito
title The Temporal and Spatial Variation of Arthropod Associations Inhabiting Non-Crop Vegetation in a Sisal Crop, <i>Agave sisalana</i> in the Caatinga Biome
title_short The Temporal and Spatial Variation of Arthropod Associations Inhabiting Non-Crop Vegetation in a Sisal Crop, <i>Agave sisalana</i> in the Caatinga Biome
title_full The Temporal and Spatial Variation of Arthropod Associations Inhabiting Non-Crop Vegetation in a Sisal Crop, <i>Agave sisalana</i> in the Caatinga Biome
title_fullStr The Temporal and Spatial Variation of Arthropod Associations Inhabiting Non-Crop Vegetation in a Sisal Crop, <i>Agave sisalana</i> in the Caatinga Biome
title_full_unstemmed The Temporal and Spatial Variation of Arthropod Associations Inhabiting Non-Crop Vegetation in a Sisal Crop, <i>Agave sisalana</i> in the Caatinga Biome
title_sort temporal and spatial variation of arthropod associations inhabiting non-crop vegetation in a sisal crop, <i>agave sisalana</i> in the caatinga biome
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2021-07-01
description Sisal, <i>Agave sisalana</i> Perrine, is cultivated for fiber production, with Brazil being its leading producer. Nowadays, given the increasing interest in organic products, the market for sisal could become an economical alternative for rural areas with low economic inputs. However, sisal is threatened by different pests and diseases. Conservation biological control could contribute to the limitation of these plant enemies, but this agroecosystem is poorly known. In this context, we aimed: (i) to identify the diversity of plants and arthropods and their potential relations, (ii) to study the spatial patterns of arthropods and plants in function of the proximity to the margin of the field, and (iii) to determine the minimum sampling effort needed to record the occurring biodiversity in a sisal crop. Arthropods were sampled using pit-fall traps located close to the border and in the inner plant of the sisal crop from June to September. Simultaneously, plant species and their abundance in quadrats next to each pitfall were recorded. Diversity indexes were calculated to describe the biodiversity, a redundancy analysis was performed to analyze relations among arthropods and plants and the spatial distribution was evaluated using the non-parametric Wilcoxon rank-sum test. The redundancy analysis and the Wilcoxon test revealed a temporal and spatial distribution of arthropods and plants during the period of study. Results indicated (i) similar temporal diversity patterns from June to July for both plants and arthropods, with a maximum in July, whereas in September the biodiversity increased for arthropods and decreased for plants; (ii) the importance of particular plant species for Collembola; and (iii) that arthropods seem to colonize the sisal crop from the fields beyond the crop during the rainy season. These results provide new information about arthropods and plant biodiversity from an agroecosystem in a semi-arid region and raise further queries about the management of sisal crops.
topic biodiversity
semi-arid
arthropod–plant interactions
spatial pattern
sampling protocol
url https://www.mdpi.com/2076-3417/11/14/6498
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