Proliferation of \u3cem\u3eChondrodonta\u3c/em\u3e as a Proxy of Environmental Instability at the Onset of OAE1a: Insights from Shallow-Water Limestones of the Apulia Carbonate Platform

Chondrodonta is an opportunistic, oyster-like bivalve, common in shallow-water carbonates of the Cretaceous Tethyan Realm. Despite its high abundance and widespread geographic distribution, the precise relationship between the early Aptian proliferation and environmental perturbations resulting from the Oceanic Anoxic Event 1a (OAE1a), has not been investigated. Stratigraphic and geochemical analyses of the lower Aptian Chondrodonta bedsets within the inner platform limestones of the Apulia Carbonate Platform (Gargano Promontory, southern Italy) are conducted to assess the environmental controls on the Chondrodonta proliferation and its timing and causal relationship to OAE1a. Chondrodonta occurs with sparse to common individuals within requieniid rudist floatstone–rudstones, forms monospecific biostromes during the early phase of stressed environmental conditions and then rapidly disappears at the peak of OAE1a. It proliferates in dysoxic seawater with relatively increased trophic sources, which correlate to increasing nutrient levels in the nearby pelagic realm. Chondrodonta-rich beds are associated worldwide with the onset of OAE1a and occur in a transitional context between a stable and a strongly stressed environment, where the opportunistic behaviour of Chondrodonta is rather efficient. Increasing nutrient load and unstable environmental conditions right below the peak of OAE1a created an environmental ‘window’ favourable for Chondrodonta to proliferate, outplaying the less tolerant benthos (for example, rudists). The occurrence, duration and position of the environmental window were controlled by local palaeogeographic and hydrodynamic settings (i.e. low energy, decreased seawater oxygenation and circulation). Further increase in inhospitable conditions, leading to OAE1a, constituted an upper threshold for Chondrodonta and allowed mesotrophic taxa like Bacinella–Lithocodium and orbitolinids to dominate the benthic communities. The present study suggests that the proliferation of Chondrodonta in shallow-water platform carbonates can be used as proxy for the initial phase of ecological stress related to OAE1a

Augmentative and alternative communication in adolescents with severe intellectual disability: a clinical experience.

AIM: Augmentative and alternative communication devices proved to be effective in patients with severe intellectual disability to overcome their communication impairments. In order to give a contribution for design of augmentative and alternative communication systems that better meet the needs of beginning communicators we decided to report our clinical experience about using augmentative and alternative communication in adolescents with severe intellectual disability. METHODS: Five patients who underwent a long time traditional speech rehabilitation program (at least 5 years) with scant improvements in linguistic function were recruited and evaluated by means of the Vineland Adaptive Behaviour Scale before and after a three years augmentative and alternative communication intervention carried out by a multidisciplinary team. RESULTS: After the rehabilitative intervention patients showed an improvement in communication, daily living skills and socialization as measured by the Vineland Adaptive Behaviour Scale. CONCLUSION: Augmentative and alternative communication is an effective rehabilitation approach to people with severe intellectual disability and impairments in linguistic expression. Moreover augmentative and alternative communication is a useful tool allowing these patients to increase their social participation also enhancing their self-esteem. Our clinical experience confirmed these topics also in adolescents who underwent a long time traditional speech rehabilitation program with scant improvements, providing practical information to clinicians

Augmentative and alternative communication in adolescents with severe intellectual disability: a clinical experience.

AIM: Augmentative and alternative communication devices proved to be effective in patients with severe intellectual disability to overcome their communication impairments. In order to give a contribution for design of augmentative and alternative communication systems that better meet the needs of beginning communicators we decided to report our clinical experience about using augmentative and alternative communication in adolescents with severe intellectual disability. METHODS: Five patients who underwent a long time traditional speech rehabilitation program (at least 5 years) with scant improvements in linguistic function were recruited and evaluated by means of the Vineland Adaptive Behaviour Scale before and after a three years augmentative and alternative communication intervention carried out by a multidisciplinary team. RESULTS: After the rehabilitative intervention patients showed an improvement in communication, daily living skills and socialization as measured by the Vineland Adaptive Behaviour Scale. CONCLUSION: Augmentative and alternative communication is an effective rehabilitation approach to people with severe intellectual disability and impairments in linguistic expression. Moreover augmentative and alternative communication is a useful tool allowing these patients to increase their social participation also enhancing their self-esteem. Our clinical experience confirmed these topics also in adolescents who underwent a long time traditional speech rehabilitation program with scant improvements, providing practical information to clinicians

Caratteristiche morfologiche di vitigni di antica coltivazione nel promontorio garganico.

Il promontorio garganico ha un'antica tradizione viticolo-enologica in parte dispersasi nel corso del tempo. Numerose accessioni di antica coltivazione sono state conservate nel territorio di Vico del Gargano e studiate in programmi di ricerca. Al fine di divulgare le conoscenze acquisite, il presente lavoro illustra i principali caratteri ampelografici e ampelometrici di quattro accessioni ritenute di particolare interesse per un processo di recupero e valorizzazione enologica: Uva Nera Tosta, Uva della Macchia, Malvagia Nera Antica, Nardobello

Proliferation of Chondrodonta as a proxy of environmental instability at the onset of OAE1a: Insights from shallow-water limestones of the Apulia Carbonate Platform

Chondrodonta is an opportunistic, oyster-like bivalve, common in shallow-water carbonates of the Cretaceous Tethyan Realm. Despite its high abundance and widespread geographic distribution, the precise relationship between the early Aptian proliferation and environmental perturbations resulting from the Oceanic Anoxic Event 1a (OAE1a), has not been investigated. Stratigraphic and geochemical analyses of the lower Aptian Chondrodonta bedsets within the inner platform limestones of the Apulia Carbonate Platform (Gargano Promontory, southern Italy) are conducted to assess the environmental controls on the Chondrodonta proliferation and its timing and causal relationship to OAE1a. Chondrodonta occurs with sparse to common individuals within requieniid rudist floatstone–rudstones, forms monospecific biostromes during the early phase of stressed environmental conditions and then rapidly disappears at the peak of OAE1a. It proliferates in dysoxic seawater with relatively increased trophic sources, which correlate to increasing nutrient levels in the nearby pelagic realm. Chondrodonta-rich beds are associated worldwide with the onset of OAE1a and occur in a transitional context between a stable and a strongly stressed environment, where the opportunistic behaviour of Chondrodonta is rather efficient. Increasing nutrient load and unstable environmental conditions right below the peak of OAE1a created an environmental ‘window’ favourable for Chondrodonta to proliferate, outplaying the less tolerant benthos (for example, rudists). The occurrence, duration and position of the environmental window were controlled by local palaeogeographic and hydrodynamic settings (i.e. low energy, decreased seawater oxygenation and circulation). Further increase in inhospitable conditions, leading to OAE1a, constituted an upper threshold for Chondrodonta and allowed mesotrophic taxa like Bacinella–Lithocodium and orbitolinids to dominate the benthic communities. The present study suggests that the proliferation of Chondrodonta in shallow-water platform carbonates can be used as proxy for the initial phase of ecological stress related to OAE1a

Proliferation of Chondrodonta as a proxy of environmental instability at the onset of OAE1a: Insights from shallow-water limestones of the Apulia Carbonate Platform

Chondrodonta is an opportunistic, oyster-like bivalve, common in shallow-water carbonates of the Cretaceous Tethyan Realm. Despite its high abundance and widespread geographic distribution, the precise relationship between the early Aptian proliferation and environmental perturbations resulting from the Oceanic Anoxic Event 1a (OAE1a), has not been investigated. Stratigraphic and geochemical analyses of the lower Aptian Chondrodonta bedsets within the inner platform limestones of the Apulia Carbonate Platform (Gargano Promontory, southern Italy) are conducted to assess the environmental controls on the Chondrodonta proliferation and its timing and causal relationship to OAE1a. Chondrodonta occurs with sparse to common individuals within requieniid rudist floatstone–rudstones, forms monospecific biostromes during the early phase of stressed environmental conditions and then rapidly disappears at the peak of OAE1a. It proliferates in dysoxic seawater with relatively increased trophic sources, which correlate to increasing nutrient levels in the nearby pelagic realm. Chondrodonta-rich beds are associated worldwide with the onset of OAE1a and occur in a transitional context between a stable and a strongly stressed environment, where the opportunistic behaviour of Chondrodonta is rather efficient. Increasing nutrient load and unstable environmental conditions right below the peak of OAE1a created an environmental ‘window’ favourable for Chondrodonta to proliferate, outplaying the less tolerant benthos (for example, rudists). The occurrence, duration and position of the environmental window were controlled by local palaeogeographic and hydrodynamic settings (i.e. low energy, decreased seawater oxygenation and circulation). Further increase in inhospitable conditions, leading to OAE1a, constituted an upper threshold for Chondrodonta and allowed mesotrophic taxa like Bacinella–Lithocodium and orbitolinids to dominate the benthic communities. The present study suggests that the proliferation of Chondrodonta in shallow-water platform carbonates can be used as proxy for the initial phase of ecological stress related to OAE1a