00693nam0-2200229 --450 991074039400332120230914122035.020230914d2001----kmuy0itay5050 baitaIT 001yyAlcuni interventi in Senato nella 12. e 13. LegislaturaGiovanni Russo[RomaSenato della Repubblica2001]354 p.24 cm.Russo,Giovanni<1932-2016>1424175ITUNINAREICATUNIMARCBK9910740394003321DFT C40 RUSG 01FLFBCFLFBCAlcuni interventi in Senato nella 12. e 13. Legislatura3553160UNINA02475nam 22004093 450 991014956070332120230808200415.01-68230-541-4(CKB)3710000000935009(MiAaPQ)EBC6186282(Au-PeEL)EBL6186282(OCoLC)1155325070(EXLCZ)99371000000093500920210901d2016 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierAmerica's Best Food CitiesNewburyport :Diversion Publishing Corp.,2016.©2016.1 online resource (225 pages)Intro -- America's Best Food Cities -- Copyright -- The 10 Best Food Cities in America, Ranked -- 10. Charleston, S.C. -- Where Tom Went -- How Charleston stacks up -- Recipes: Frogmore Chowder and Diver Scallop Hush Puppies With Chowchow Tartar Sauce -- 9. Washington, D.C. -- Where Tom Went -- How Washington stacks up -- Recipes: Vidalia's Lemon Chess Pie and Ticket to Phuket -- 8. New York -- Where Tom Went -- How New York stacks up -- Recipe: Katz's Egg Cream -- 7. Chicago -- Where Tom Went -- How Chicago stacks up -- Recipes: Chicken Fried Chicken With Chorizo Gravy and Mezcal Margarita -- 6. Philadelphia -- Where Tom Went -- How Philadelphia stacks up -- Recipes: Fennel Gratins and Lancaster Chicken Salad -- 5. Houston -- Where Tom Went -- How Houston stacks up -- Recipes: Blistered Banana Peppers With Cheese and Parsi Eggs -- 4. New Orleans -- Where Tom Went -- How New Orleans stacks up -- Recipe: Bonded Sazerac -- 3. Los Angeles -- Where Tom Went -- How Los Angeles stacks up -- Recipes: Green Goddess and Pozole Verde With Clams -- 2. San Francisco -- Where Tom Went -- How San Francisco stacks up -- Recipe: Zuni Cafe Espresso Granita With Whipped Cream -- 1. Portland, Ore. -- Where Tom Went -- How Portland stacks up -- Recipes: Screen Door Breakfast Hush Puppies and Coffee Daiquiri -- About the Author -- More from The Washington Post... -- Connect with Diversion Books.RestaurantsCookingRestaurants.Cooking.Post The Washington1378067Sietsema Tom1378068MiAaPQMiAaPQMiAaPQBOOK9910149560703321America's Best Food Cities3415989UNINA05293nam 2201369z- 450 9910619467403321202210253-0365-4942-0(CKB)5670000000391600(oapen)https://directory.doabooks.org/handle/20.500.12854/93187(oapen)doab93187(EXLCZ)99567000000039160020202210d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAquatic InsectsBiodiversity, Ecology and Conservation ChallengesMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (240 p.)3-0365-4941-2 Insects have successfully inhabited all freshwater habitats on Earth and are often the most diverse and abundant species in streams and ponds. With a disproportionally high species richness compared to the area covered by freshwaters, aquatic insects represent a hotspot of diversity. They play crucial roles in aquatic food webs as primary consumers, detritivores, and predators, but they also represent an important food resource for aquatic and terrestrial predators. Many aquatic insect orders, such as mayflies, stoneflies, and caddisflies, include taxa that are highly sensitive to habitat alterations, reflecting the health of the overall aquatic ecosystem. This feature is exploited by many scientists and practitioners around the world for water and environment quality monitoring. Despite their importance in term of diversity, ecosystem services and bioindication, many aquatic insect species are critically endangered, mainly due to anthropogenic pressures on freshwaters and climate change. Although the research efforts on aquatic insects tremendously increased during the 21st century, much is still left undiscovered. This Special Issue addresses existing knowledge gaps and increases our understanding of taxonomic diversity and phylogeny, distribution patterns, and community ecology of aquatic insects through 15 new studies that cover most of the aquatic insect orders over a wide geographic range. In a context of rapid global biodiversity loss, accelerating the acquisition of both fundamental and applied knowledge is crucial.Aquatic InsectsBiology, life sciencesbicsscEcological science, the BiospherebicsscResearch & information: generalbicsscalpha and beta diversityanthropogenic impactanthropogenic pressureaquaticaquatic insectsaquatic macrophytesAtlasbiodiversitybiogeographybioindication valueCentral Plateauchecklistchironomid larvaecitizen scienceclimatecolonizationconservationdamselfliesDanubedeveloping countrydistributiondiving beetlesdragonfliesEastern Mediterraneanendemismenvironmental variablesEPTflight periodfloodplainflow intermittencefreshwaterfunctional evennessfunctional richnessfunctional specializationgomphid nymphsHemipteraHeteropterahierarchical unit codesHQIimpact of mining and forest fireindex scoresisland biogeographykarstlife cyclelimnologylocal extinctionmarine insectsmayfliesmayflymultivariate statisticsmuseum studyn/anew speciesNorth AfricaodonateOriental MoroccoOrientogomphusphylogeneticsphylogenomicsPlecopterapopulation declineRifriversspecies compositionsspecies radiationspecies richnessstonefliesstreamssubstrate preferencesystematicstaxonomic diversitytaxonomyThailandUSAwater pollution index (WPI)water qualityWQIBiology, life sciencesEcological science, the BiosphereResearch & information: generalVilenica Marinaedt1286290Yanai ZoharedtVuataz LaurentedtVilenica MarinaothYanai ZoharothVuataz LaurentothBOOK9910619467403321Aquatic Insects3019861UNINA