Leaf-Nets (LN): A New Quantitative Method for Sampling Macroinvertebrates in Non-Wadeable Streams and Rivers

Sabatino, Antonio Di; Cristiano, Giovanni; Sanza, D. Di; Lombardo, Paola; Giansante, Carla; Caprioli, Riccardo; Vignini, Patrizia; Miccoli, Francesco Paolo; Cicolani, Bruno

doi:10.1002/rra.2976

Cited by 9 publications

(12 citation statements)

References 34 publications

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“…Leaf-litter breakdown in Vera Spring was assessed by using the modified leaf-bags method (Di Sabatino et al, 2016, 2018). The device is formed by two PVC nets (0.10 m * 0.15 m, mesh size 0.01 m—Fig.…”

Section: Methodsmentioning

confidence: 99%

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A modification of the leaf-bags method to assess spring ecosystem functioning: benthic invertebrates and leaf-litter breakdown in Vera Spring (Central Italy)

Cristiano

Cicolani

Miccoli

et al. 2019

PeerJ

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The evaluation of leaf detritus processing (decomposition and breakdown) is one of the most simple and cost-effective method to assess the functional characteristics of freshwater ecosystems. However, in comparison with other freshwater habitats, information on leaf litter breakdown in spring ecosystems is still scarce and fragmentary. In this paper, we present results of the first application of a variant of the leaf-bags method to assess structure of macroinvertebrate assemblages and leaf-litter breakdown in a Central Apennines (Italy) cold spring which was investigated from July 2016 to October 2016. Notwithstanding the stable conditions of almost all hydrological and physico-chemical parameters, we found significant temporal differences in (i) % of mass loss of poplar leaves (ii) number of Ephemeroptera, Plecoptera and Trichoptera taxa, (iii) shredder and predator densities. We demonstrate that detritus processing in cold springs may be faster than or as fast as in warmer streams/rivers. Shredders activity and biocoenotic interactions, rather than temperature and nutrients load, were the main drivers of the process. A routine application of the modified leaf-bags may contribute to expand our knowledge on detritus processing in cold springs and may help to predict impacts of climate warming on freshwater ecosystem functioning.

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Section: Methodsmentioning

confidence: 99%

“…Two of these units (area of 0.06 m 2 ) were assembled using plastic coated steels (Figs. 1D and 1E); but see Di Sabatino et al (2016, 2018) for details on construction technique and materials used.…”

Section: Methodsmentioning

confidence: 99%

A modification of the leaf-bags method to assess spring ecosystem functioning: benthic invertebrates and leaf-litter breakdown in Vera Spring (Central Italy)

Cristiano

Cicolani

Miccoli

et al. 2019

PeerJ

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“…Most importantly, the new sampling method also allows for a concomitant evaluation of the structural and functional (leaf litter breakdown) characteristics of spring ecosystems. We should also remark that, as other artificial substrates, the leaf-nets may act as a simple physical support, fully colonizable by aquatic microbiota and invertebrates (Di Sabatino et al, 2016). Therefore, they can be successfully utilised also in springs where the input of allochthonous leaf material is absent or of minor importance.…”

Section: Discussionmentioning

confidence: 99%

“…The modified LN (Di Sabatino et al, 2016) were assembled using two PVC nets (0.10 m x 0.15 m; mesh size = 0.01 m) filled with a single layer of Populus nigra leaves (Fig. 1a).…”

Section: Sampling Proceduresmentioning

confidence: 99%

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A modification of the leaf-nets method for sampling benthic invertebrates in spring habitats

et al. 2017

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The full ecological potential of spring habitats remains relatively unexplored mostly because of the lack of standardized sampling procedures and difficulties to collect representative biological samples, especially in small-sized springs. Recent studies on sampling methodologies in spring habitats indicated that a modified Surber net with a reduced frame area, reliably describes the structure and composition of spring communities. This method, however, is very invasive and may severely impact the spring, especially when a large number of samples is required. The paper presents a new quantitative method (leaf-nets) for sampling crenic invertebrates which combines a rather high efficiency with negligible impacts on spring habitat structure and biota. The effectiveness of the new methodology was tested in a medium-size rheocrene spring in Central Apennine, where spring assemblages were sampled in parallel with a modified Surber net and with the new method. Taxa richness and density were higher in the Surber net, while no between-method differences were recorded for the number of insect taxa and Simpson diversity. Furthermore, the overall functional organization of Surber net and leaf-nets assemblages was very similar. The new method sampled only 25% of the individuals cumulatively collected, but 75% of the total richness, with a good representation of the structure and the functional organization of spring assemblages. In comparison with the Surber net, the negligible loss of information of the new method is highly compensated by its minor invasivity, lower impacts on spring microhabitats and invertebrate populations and by its higher versatility. Leaf-nets could also be used to assess leafdetritus breakdown in springs, thus allowing a better ecological characterization of these ecosystems.

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Effects of antecedent drying events on structure, composition and functional traits of invertebrate assemblages and leaf‐litter breakdown in a former perennial river of Central Apennines (Aterno River, Abruzzo, Central Italy)

2021

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Because of global change and increasing anthropogenic pressures, non-perennial rivers and streams are predicted to drastically increase in the European-Mediterranean region. Some river basins already subject to reduced levels of available superficial flow may present a further reduction, with a significant increase in intermittence phenomena and complete drought of former perennial rivers. In this context, a sound knowledge of the ecological effects of increasing drying events on these watercourses may help to better predict impacts of the altered flow regime on structure and functions of freshwater ecosystems. In this paper, we assessed the long-term response of invertebrate assemblages and ecosystems processes to antecedent drying events (drying memory) in a Central Apennine river (Italy). We demonstrated that compared to the perennial reach, the 7-km downstream intermittent site, after more than 1 year from a complete superficial flow resumption, still conserved the 'memory' of past disturbance with marked differences in structure, composition and functional traits of assemblages which, in turn, negatively influenced the leaf-litter breakdown process. Despite total abundance and taxa richness were on average higher at the intermittent site, antecedent droughts determined a decline of shredders and scrapers and an increase of collectors. In addition, some more sensible, semivoltine and rheophile taxa were replaced by generalist, multivoltine and more resistant taxa. Our findings confirm and extend the 'drying memory' hypothesis and suggest that irregular drying events in former perennial Apennine rivers may have dramatic long-term effects on both structure and functions of lotic ecosystems.

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Leaf-Nets (LN): A New Quantitative Method for Sampling Macroinvertebrates in Non-Wadeable Streams and Rivers

Cited by 9 publications

References 34 publications

A modification of the leaf-bags method to assess spring ecosystem functioning: benthic invertebrates and leaf-litter breakdown in Vera Spring (Central Italy)

A modification of the leaf-bags method to assess spring ecosystem functioning: benthic invertebrates and leaf-litter breakdown in Vera Spring (Central Italy)

A modification of the leaf-nets method for sampling benthic invertebrates in spring habitats

Effects of antecedent drying events on structure, composition and functional traits of invertebrate assemblages and leaf‐litter breakdown in a former perennial river of Central Apennines (Aterno River, Abruzzo, Central Italy)

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