Effects of single and repeated drought on soil microarthropods in a semi-arid ecosystem depend more on timing and duration than drought severity

Flórián, Norbert; Ladányi, Márta; Ittzés, András; Kröel‐Dulay, György; Ónodi, Gábor; Mucsi, Márton; Szili‐Kovács, Tibor; Gergócs, Veronika; Dányi, László; Dombos, Miklós

doi:10.1371/journal.pone.0219975

Cited by 17 publications

(17 citation statements)

References 55 publications

(84 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Moreover, the life form structure of the assemblages was also significantly altered since more atmobiotic and hemiedaphic springtails at the expense of epedaphic species were recorded in the plots rooted by wild boars. These findings correspond to the effect of drought manifesting in changes in the dominance structure of Collembola communities revealed by Lindberg et al [57], while a decrease in epedaphic life forms in experiments with induced drought was reported by Flórián et al [60].…”

Section: Discussionsupporting

confidence: 90%

“…Soil moisture has often been reported to be the most important factor affecting the structure and function of soil fauna [5,6,[55][56][57][58]. Edaphic Collembola in pine forests on podzols seem to be adapted to temporary drought events and able to survive even extreme conditions; however, they may not be able to cope with very long drought periods [57,59,60]. In most field experiments, extreme drought treatments induced a negative change in the abundance and density of soil Collembola (e.g., [5,57,58]).…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Collembolan Assemblages Response to Wild Boars (Sus scrofa L.) Rooting in Pine Forest Soil

Sławski

Sławska

2020

Forests

View full text Add to dashboard Cite

Collembola are an important component of soil communities in all terrestrial ecosystems. In temperate coniferous forests, they are one of the most numerous invertebrate groups, and disturbances that change their density and structure may have negative effects on soil fertility and productivity. Our goal was to determine whether intensive rooting in the forest floor by wild boars affects edaphic Collembola. Soil samples from three paired rooted and non-rooted plots in Scots pine stands were taken twice a year to study the impact of such bioturbation on forest collembolan assemblages. Substantial changes in the taxonomic and functional structure of the collembolan assemblages were identified in all disturbed plots. The abundance and number of species significantly decreased in the bioturbated forest floor. The shares of atmobiotic and hemiedaphic springtails increased at the expense of epedaphic forms. Most of the differences were evident shortly after grubbing but were not significant a few months later. The decline in moisture in disturbed soil could be an explanatory factor causing the differences in the structure and abundance of collembolan assemblages between the bioturbated and intact plots. Our study revealed that large mammals ubiquitous in forest ecosystems can be an important disturbing factor for soil microarthropods. Intensive wild boar rooting in the forest floor had a strong negative effect on the occurrence and abundance of Collembola. This kind of bioturbation also modified the functional structure of assemblages, which in turn may have important consequences for the soil food web and above- and belowground interactions.

show abstract

Section: Discussionsupporting

confidence: 90%

Section: Discussionmentioning

confidence: 99%

Collembolan Assemblages Response to Wild Boars (Sus scrofa L.) Rooting in Pine Forest Soil

Sławski

Sławska

2020

Forests

View full text Add to dashboard Cite

show abstract

“…Moreover, the life-form structure of the assemblages was also signi cantly altered since more atmobiotic and hemiedaphic springtails at the expense of epedaphic species were recorded in the plots rooted by wild boars. These ndings correspond to the effect of drought manifesting in changes in the dominance structure of Collembola communities revealed by Lindberg et al, (2002), while a decrease in epedaphic life forms in experiments with induced drought was reported by (Flórián et al 2019).…”

Section: Discussionsupporting

confidence: 79%

“…Soil moisture has often been reported to be the most important factor affecting the structure and function of soil fauna (Verhoef and van Selm, 1983;P ug and Wolters, 2001;Lindberg et al, 2002;Tsiafouli et al, 2005;Petersen, 2011;Xu et al, 2012). Edaphic Collembola in pine forests on Podzols seem to be adapted to temporary drought events and able to survive even extreme conditions; however, they may not be able to cope with very long drought periods (Lindberg et al, 2002;Lindberg and Bengtsson, 2006;Flórián et al, 2019). In most eld experiments, extreme drought treatments induced a negative change in the abundance and density of soil Collembola (e.g.…”

Section: Discussionmentioning

confidence: 99%

Collembolan Assemblages Response to Wild Boars (Sus Scrofa L.) Rooting in Pine Forest Soil

Sławski

Sławska

2020

Preprint

View full text Add to dashboard Cite

Background: Collembola are an important component of soil communities in all terrestrial ecosystems. In temperate coniferous forests, they are one of the most numerous invertebrate groups and disturbances that change their density and structure may have negative effects on soil fertility and productivity. Our goal was to determine whether intensive rooting in the forest floor by wild boars affects edaphic Collembola. Soil samples from three paired rooted and non-rooted plots in Scots pine stands were taken twice a year to study the impact of such bioturbation on forest collembolan assemblages. Results: Substantial changes in the taxonomic and functional structure of the collembolan assemblages were identified in all disturbed plots. The abundance and number of species significantly decreased in the bioturbated forest floor. The shares of atmobiotic and hemiedaphic springtails increased at the expense of epedaphic forms. Most of the differences were evident shortly after grubbing but were not significant a few months later. The decline in moisture in disturbed soil could be an explanatory factor causing the differences in the structure and abundance of collembolan assemblages between the bioturbated and intact plots.Conclusions:Our study revealed that large mammals ubiquitous in forest ecosystems can be an important disturbing factor for soil microarthropods. Intensive wild boar rooting in the forest floor had a strong negative effect on the occurrence and abundance of Collembola. This kind of bioturbation caused also the modification to the functional structure of assemblages, which in turn may have important consequences for soil food web and above- and below-ground interactions.

show abstract

“…Sensor data were biased, especially in arid, sandy soil where sand particles could fall into the probe. Since fall-in events between insects and soil sand particles could not be distinguished, the frequency of detection was higher than the specimens captured [27]. The new camera-supported probe presented in this paper combines pitfall and camera-traps.…”

Section: Discussionmentioning

confidence: 96%

Detecting Soil Microarthropods with a Camera-Supported Trap

Flórián¹,

Gránicz²,

Gergócs³

et al. 2020

Insects

Self Cite

View full text Add to dashboard Cite

There is an increasing need to monitor activity and population growth of arthropods; however, this is a time-consuming and financially demanding process. Using sensors to detect arthropods in the field can help to follow their dynamics in time. Improving our earlier device, we developed a new camera-supported probe to detect soil microarthropods. An opto-electronic sensor ring detects the caught microarthropod individuals what activates a camera. The camera takes pictures of a specimen when it arrives in the camera chamber. A vacuum device was built into the probe which pumps up the specimen from the probe to a sample container. Here, we describe the construction and operation of the probe. We investigated the precision of the process in a laboratory experiment using living microarthropods and evaluated the accuracy of the probes in a semi-natural investigation when environmental noise was present. Under semi-natural conditions, the percentages of success, i.e., the photographed specimens compared to the caught ones, were between 60% and 70% at the investigated taxa. The automatic camera shooting helped in distinguishing insects from irrelevant detections while collecting the trapped insects allowed species-level determination. This information together serves as a basis for the automatic visual recognition of microarthropod species.

show abstract

Effects of single and repeated drought on soil microarthropods in a semi-arid ecosystem depend more on timing and duration than drought severity

Cited by 17 publications

References 55 publications

Collembolan Assemblages Response to Wild Boars (Sus scrofa L.) Rooting in Pine Forest Soil

Collembolan Assemblages Response to Wild Boars (Sus scrofa L.) Rooting in Pine Forest Soil

Collembolan Assemblages Response to Wild Boars (Sus Scrofa L.) Rooting in Pine Forest Soil

Detecting Soil Microarthropods with a Camera-Supported Trap

Contact Info

Product

Resources

About