Recovery of Collembola in Pinus tabulaeformis Plantations
References (27)
- et al.
Abundance, species diversity, and community structure of Collembola in successional coastal temperate forests on Vancouver Island Canada
Appl Soil Ecol
(2003) - et al.
Functional role of Collembola in successional coastal temperate forests on Vancouver Island Canada
Appl Soil Ecol
(2003) - et al.
A comparison of the forest floor invertebrate communities of four forest types in the northeastern U. S
Pedobiologia
(1994) - et al.
Endemic Collembola, privileged bioindicators of forest management
Pedobiologia
(2006) Collembola in Norwegian coniferous forest soils. I. Relations to plant communities and soil fertility
Pedobiologia
(1982)- et al.
Collembolan community dynamics during deciduous forests regeneration in Japan
Pedobiologia
(2006) - et al.
Forest ecosystem recovery in the southeast US: soil ecology as an essential component of ecosystem management
Forest Eco Manag
(2002) - et al.
Priority assessment for conversion of Norway spruce forests through introduction of broadleaf species
Forest Ecol Manag
(1998) Biocenoses of Collembola in Atlantic temperate grass-woodland ecosystems
Pedobiologia
(1993)- et al.
The Collembola community of pure and mixed stands of beech (Fagus sylvatica) and spruce (Picea abies) of different age
Pedobiologia
(2008)
Water balance in Collembola and its relation to habitat selection: Water content, haemolymph osmotic pressure and transpiration during an instar
J Insect Physiol
Change analysis on Chinese forest construction from year 1950 to 2003?
J Beijing Forest Univ (in Chinese)
Linking soil biodiversity and ecosystem function—The taxonomic dilemma
BioScience
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High trait diversity among soil arthropods allows their survival in a heterogeneous eco-agricultural mosaic
2023, Soil Biology and BiochemistryTimber plantations do not homogenize soil arthropod diversity but do alter species composition
2022, GeodermaCitation Excerpt :We determine here whether the presence of timber plantations within the landscape contributes to biotic homogenization of soil biodiversity within a mosaic of timber plantation and conservation corridors consisting of native grasslands and natural forests, which mitigate the negative effects of timber plantations on local biodiversity (Joubert and Samways, 2014; Joubert et al., 2016). Ants and springtails were selected as focal soil arthropods for this study owing to their high abundance in the soil and their functionally important roles within the soil ecosystem (Rusek, 1998; Graham et al., 2009; Chang et al., 2017). They also contrast in habitat specificity (Lassau and Hochuli, 2004; Auclerc et al., 2009), mobility (Heil et al., 2001; Lessel et al., 2011), and diet (Hölldobler and Wilson, 1994; Hopkin, 1997; Malcicka et al., 2017), and therefore together provide a wide range of potential responses to environmental conditions in timber plantations and natural habitats.
Conservation of complementary habitat types and small-scale spatial heterogeneity enhance soil arthropod diversity
2022, Journal of Environmental ManagementCitation Excerpt :Soil was left for seven days, allowing the soil to dry out, causing the arthropods to move downwards and fall into a 130 ml plastic jar containing 75% ethanol attached to the bottom of the funnel. Focal arthropod taxa included springtails (Collembola) and ants (Formicidae), selected for being among the most functionally important and highly abundant groups within the soil ecosystem (Graham et al., 2009; Chang et al., 2017). These two taxa differ in mobility, habitat specificity, sensitivity to disturbance, and diet, allowing determination of whether different soil arthropods respond in the same way to different environmental factors.