Biological Communities Respond to Multiple Human-Induced Aquatic Environment Change

(Visualizza in formato marc) (Visualizza in BIBFRAME)

Autore:	Manca Marina
Titolo:	Biological Communities Respond to Multiple Human-Induced Aquatic Environment Change
Pubblicazione:	MDPI - Multidisciplinary Digital Publishing Institute, 2020
Descrizione fisica:	1 electronic resource (170 p.)
Soggetto non controllato:	multivariate analyses
	risk assessment
	aquatic insects
	crustaceans
	lab-microcosms
	nonmetric multidimensional scaling
	adaptation
	porous aquifer
	PERMANOVA
	Planktothrix rubescens
	species conservation
	distribution patterns of species
	Cyanobacteria
	fossil Cladocera
	high throughput sequencing
	machine learning model
	stability
	small lakes
	environmental factor
	non-metric multi-dimensional scaling (NMDS)
	stream ecosystem
	lake vulnerability
	PCA
	functional diversity
	ecological resilience
	nitrification
	deep lake
	metabolism
	South–North Water Diversion Project
	endemic species
	EPT taxa
	trophic interactions
	stable isotope analysis
	environmental change
	bioassessment
	generalized procrustes analysis
	freshwater pollution
	colonization
	paleolimnology
	Tychonema bourrellyi
	plankton
	subalpine lakes
	random forest model
	Danjiangkou Reservoir
	trophic degree
	multiple scale
	biodiversity
	copepods
	zooplankton
	groundwater
	genetic variability
	respirometry
	ammonium impact
	Stable Isotopes Analysis
	trophic gradient
	seasonality
Persona (resp. second.):	PisciaRoberta
Sommario/riassunto:	Perturbations linked to the direct and indirect impacts of human activities during the Anthropocene affect the structure and functioning of aquatic ecosystems to varying degrees. Some perturbations involve stress to aquatic life, including soil and water acidification, soil erosion, loss of base cations, release of trace metals/organic compounds, and application of essential nutrients capable of stimulating primary productivity. Superimposed onto these changes, climate warming impacts aquatic environments via altering species’ metabolic processes and by modifying food web interactions. The interaction stressors is difficult to predict because of the differential response of species and taxonomic groups, interacting additively, synergistically, or antagonistically. Whenever different trophic levels respond differently to climate warming, food webs are restructured; yet, the consequences of warming-induced changes for the food web structure and long-term population dynamics of different trophic levels remain poorly understood. Such changes are crucial in lakes, where food web production is mainly due to ectotherms, which are highly sensitive to changes in their surrounding environment. Due to its remarkable physical inertia, including thermal stability, global warming also has a profound effect on groundwater ecosystems. Combining contemporary and palaeo data is essential to understand the degree to which mechanisms of stressors impact on lake biological communities and lake ecosystem functioning. The degree to which alterations can affect aquatic ecosystem structure and functioning also requires functional diversity to be addressed at the molecular level, to reconstruct the role different species play in the transfer of material and energy through the food web. In this issue, we present examples of the impact of different stressors and their interaction on aquatic ecosystems, providing long-term, metabolic, molecular, and paleolimnological analyses.
Titolo autorizzato:	Biological Communities Respond to Multiple Human-Induced Aquatic Environment Change
ISBN:	3-03928-545-9
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910404076403321
Lo trovi qui:	Univ. Federico II
Opac:	Controlla la disponibilità qui