Do the size shifts of marine macroalgae match the warming trends in the Canary Islands?

Departamento de Biología Vegetal (Botánica), Universidad de La Laguna, La Laguna, Canary Islands

Habitat shifts: an experimental study on disappearing canopies of Cystoseira barbata (Stackhouse) C. Agard and the habitat replacing them

Cambiamenti di habitat in ambienti marini: uno studio sperimentale sulla perdita di foreste a Cystoseira barbata (Stackhouse) C. Agardh e sui popolamenti che le sostituiscono La presente tesi affronta il tema scientifico generale di come prevedere e mitigare la perdita di habitat marini naturali causata dalle attività umane. La tesi si è focalizzata sugli habitat subtidali a “canopy” formati da macroalghe brune a tallo eretto dell’ordine Fucales, che per morfologia, ruolo ed importanza ecologica possono essere paragonate alle “foreste” in ambienti terrestri temperati. Questi sistemi sono tra i più produttivi in ambienti marini, e sono coinvolti in importanti processi ecologici, offrendo cibo, protezione, riparo ed ancoraggio a diverse altre specie animali e vegetali, modificando i gradienti naturali di luce, sedimentazione e idrodinamismo, e partecipando al ciclo dei nutrienti. Sulle coste temperate di tutto il mondo, le foreste di macroalghe a canopy sono in forte regressione su scala locale, regionale e globale. Questo fenomeno, che sta accelerando a un ritmo sempre più allarmante, sta sollevando interesse e preoccupazione. Infatti, data la loro importanza, la perdita di questi habitat può avere importanti conseguenze ecologiche ed economiche, tra cui anche il possibile declino della pesca che è stato osservato in alcune aree in seguito alla conseguente riduzione della produttività complessiva dei sistemi marini costieri. Nel Mar Mediterraneo questi tipi di habitat sono originati prevalentemente da alghe appartenenti al genere Cystoseira, che sono segnalate in forte regressione in molte regioni. Gli habitat a Cystoseira che ancora persistono continuano ad essere minacciati da una sineregia di impatti antropici, ed i benefici complessivi delle misure di protezione fin ora attuate sono relativamente scarsi. Scopo della presente tesi era quello di documentare la perdita di habitat a Cystoseira (prevalentemente Cystoseira barbata (Stackhouse) C. Agardh) lungo le coste del Monte Conero (Mar Adriatico centrale, Italia), e chiarire alcuni dei possibili meccanismi alla base di tale perdita. Studi precedentemente condotti nell’area di studio avevano evidenziato importanti cambiamenti nella composizione floristica e della distribuzione di habitat a Cystoseira in quest’area, e avevano suggerito che la scarsa capacità di recupero di questi sistemi potesse essere regolata da interazioni tra Cystoseira e le nuove specie dominanti sui substrati lasciati liberi dalla perdita di Cystoseira. Attraverso ripetute mappature dell’habitat condotte a partire da Luglio 2008 fino a Giugno 2010, ho documentato la perdita progressiva delle poche, e sempre più frammentate, patch di habitat originate da questa specie in due siti chiamati La Vela e Due Sorelle. Attraverso successivi esperimenti, ho poi evidenziato le interazioni ecologiche tra le specie dominanti coinvolte in questi cambiamenti di habitat, al fine di identificare possibili meccanismi di feedback che possano facilitare la persistenza di ciascun habitat o, viceversa, l’insediamento di habitat alternativi. La mappatura dell’habitat ha mostrato un chiaro declino della copertura, della densità e della dimensione degli habitat a Cystoseira (rappresentati soprattutto dalla specie C. barbata e occasionalmente C. compressa che però non è stata inclusa nei successivi esperimenti, d’ora in avanti per semplicità verrà utilizzato unicamente il termine Cystoseira per indicare questo habitat) durante il periodo di studio. Nel sito Due Sorelle le canopy a Cystoseira sono virtualmente scomparse, mentre a La Vela sono rimaste poche, sporadiche ed isolate chiazze di Cystoseira. Questi habitat a canopy sono stati sostituiti da nuovi habitat più semplici, tra cui soprattutto letti di mitili, feltri algali e stand monospecifici di Gracilaira spp.. La mappatura dell’habitat ha inoltre sottolineato una diminuzione del potenziale di recupero del sistema con un chiaro declino del reclutamento di Cystoseira durante tutto il periodo di studio. Successivamente ho testato se: 1) una volta perse, il recupero di Cystoseira (reclutamento) possa essere influenzato dalle interazioni con le nuove specie dominanti, quali mitili e feltri algali; 2) il reclutamento di mitili direttamente sulle fronde di Cystoseira (sia talli allo stadio adulto che giovanili) possa influenzare la sopravvivenza e la crescita della macroalga; 3) la sopravvivenza e la crescita delle nuove specie dominanti, in particolare mitili, possa essere rallentata dalla presenza di canopy di Cystoseira. I risultati dimostrano che le nuove specie dominanti insediatesi (feltri algali e mitili), possono inibire il reclutamento di Cystoseira, accelerandone il conseguente declino. L’effetto diretto dei mitili sulle fronde non è risultato particolarmente significativo né per la sopravvivenza di Cystoseira che finora non è risultata preclusa in nessun stadio di sviluppo, né per la crescita, che nel caso di individui adulti è risultata leggermente, ma non significativamente, più elevata per le fronde pulite dai mitili, mentre è stato osservato il contrario per i giovanili. La presenza di canopy a Cystoseira, anche se di piccole dimensioni, ha limitato la sopravvivenza di mitili. Questi risultati complessivamente suggeriscono che una foresta di macroalghe in buone condizioni può avere un meccanismo di autoregolazione in grado di facilitare la propria persistenza. Quando però il sistema inizia a degradarsi e a frammentarsi progressivamente, i cambiamenti delle condizioni biotiche determinati dall’aumento di nuove specie dominanti contribuiscono alla mancanza di capacità di recupero del sistema. Pertanto le strategie per una gestione sostenibile di questi sistemi dovrebbero focalizzarsi sui primi segnali di cambiamenti in questo habitat e sui possibili fattori che ne mantengono la resilienza.

13C NMR of a single molecule magnet: analysis of pseudocontact shifts and residual dipolar couplings

Paramagnetic triple decker complexes of lanthanides are promising Single Molecule Magnets (SMMs), with many potential uses. Some of them show preferable relaxation behavior, which enables the recording of well resolved NMR spectra. These axially symmetric complexes are also strongly magnetically anisotropic, and this property can be described with the axial component of the magnetic susceptibility tensor, χa. For triple decker complexes with phthalocyanine based ligands, the Fermi˗contact contribution is small. Hence, together with the axial symmetry, the experimental chemical shifts in 1H and 13C NMR spectra can be modeled easily by considering pseudocontact and orbital shifts alone. This results in the determination of the χa value, which is also responsible for molecular alignment and consequently for the observation of residual dipolar couplings (RDCs). A detailed analysis of the experimental 1H-13C and 1H-1H couplings revealed that contributions from RDCs (positive and negative) and from dynamic frequency shifts (negative for all observed couplings) have to be considered. Whilst the pseudocontact shifts depend on the average positions of 1H and 13C nuclei relative to the lanthanide ions, the RDCs are related to the mobility of nuclei they correspond to. This phenomenon allows for the measurement of the internal mobility of the various groups in the SMMs.

Parallel amino acid replacements in the rhodopsins of the rockfishes (Sebastes spp.) associated with shifts in habitat depth

Among various groups of fishes, a shift in peak wavelength sensitivity has been correlated with changes in their photic environments. The genus Sebastes is a radiation of marine fish species that inhabit a wide range of depths from intertidal to over 600 m. We examined 32 species of Sebastes for evidence of adaptive amino acid substitution at the rhodopsin gene. Fourteen amino acid positions were variable among these species. Maximum likelihood analyses identify several of these to be targets of positive selection. None of these correspond to previously identified critical amino acid sites, yet they may in fact be functionally important. The occurrence of independent parallel changes at certain amino acid positions reinforces this idea. Reconstruction of habitat depths of ancestral nodes in the phylogeny suggests that shallow habitats have been colonized independently in different lineages. The evolution of rhodopsin appears to be associated with changes in depth, with accelerated evolution in lineages that have had large changes in depth.

On Semi-weakly n-Hyponormal Weighted Shifts

Semi-weak n-hyponormality is defined and studied using the notion of positive determinant partition. Several examples related to semi-weakly n-hyponormal weighted shifts are discussed. In particular, it is proved that there exists a semi-weakly three-hyponormal weighted shift W (alpha) with alpha (0) = alpha (1) < alpha (2) which is not two-hyponormal, which illustrates the gaps between various weak subnormalities.

Quadratically Hyponormal Weighted Shifts with Recursive Tail

We characterize positive quadratic hyponormality of the weighted shift W-alpha(x) associated to the weight sequence alpha(x) : 1, 1, root x, (root u, root v, root w)(Lambda) with Stampfli recursive tail, and produce an interval in x with non-empty interior in the positive real line for quadratic hyponormality but not positive quadratic hyponormality for such a shift. (C) 2013 Elsevier Inc. All rights reserved.

Backward Extensions of Recursively Generated Weighted Shifts and Quadratic Hyponormality

Given the weight sequence for a subnormal recursively generated weighted shift on Hilbert space, one approach to the study of classes of operators weaker than subnormal has been to form a backward extension of the shift by prefixing weights to the sequence. We characterize positive quadratic hyponormality and revisit quadratic hyponormality of certain such backward extensions of arbitrary length, generalizing earlier results, and also show that a function apparently introduced as a matter of convenience for quadratic hyponormality actually captures considerable information about positive quadratic hyponormality.

k-Hyponormality and n-Contractivity for Agler-Type Shifts

We consider k-hyponormality and n-contractivity (k, n = 1, 2, ...) as "weak subnormalities" for a Hilbert space operator. It is known that k-hyponormality implies 2k-contractivity; we produce some classes of weighted shifts including a parameter for which membership in a certain n-contractive class is equivalent to k-hyponormality. We consider as well some extensions of these results to operators arising as restrictions of these shifts, or from linear combinations of the Berger measures associated with the shifts.

EXPLORING CHANGES IN DETRITAL FLOCCULENT LAYER DYNAMICS DUE TO SHIFTS IN MACROPHYTE COMMUNITIES IN THE NORTHERN EVERGLADES

A shift in plant communities of the Water Conservation Areas (WCAs) within the Everglades has been linked to changes in hydrology and high levels of nutrient loading from surrounding agicultural areas. This has resulted in the encroachment of dense cattail stands (Typha domingensis) into areas that had previously been a ridge and slough landscape populated primarily by native sawgrass (Cladium jamaicense). In order to study ecological management solutions in this area, WCA-2A was broken into study plots; several of which became open water areas through the application of herbicide and burning regimens. The open water areas allowed for Chara spp (a submersed algal species) to replace Typha domingensis as the dominant macrophyte. This study investigated the polymer and ionic profiles of Chara spp, Typha domingensis and Cladium jamaicense and their contributions to detrital flocculent (floc) in the study plots where they are the dominant macrophytes. Floc is not only an important food source for aquatic species; it also supports many algal, fungal and bacterial communities. Data gathered in this study indicated that the floc sample from a phosphorus enriched open water study plot (EO1) where Chara spp was the dominant macrophyte may contain cell wall polymers from sources other than Chara spp (most likely Typha domingensis), while the chemical and polymeric profile of the floc of the study plot where Typha domingensis is the dominant macrophyte (EC1) suggests that the floc layer has contributions from algal sources as well as Typha domingensis. Additionally, monoclonal antibodies to Arabinoglalactan protein (AGP) and (1,4)-β-D galactan were identified as possible biomarkers for distinguishing algal dominated floc layers from layers dominated by emergent vegetation. Calcium labeling could be a useful tool for this as well because of the high amount of Ca2+ associated with Chara spp cell walls. When looking into the soluble phosphorus content of the macrophytes and paired floc samples of WCA-2A, it was found that Chara spp may be contributing a greater amount of Ca-bound phosphorus to floc layers where it is the dominant macrophyte when compared to floc layers from study plots dominated by emergent macrophytes. Floc layers also appear to be acting as a nutrient sink for soluble phosphorus. The findings of this study support the overall hypothesis that the shift from native emergent macrophyte communities to submersed macrophyte communities in study sites of the northern Everglades is affecting the polymeric/chemical profile and ionic content of detrital floc layers. The effects of this shift may contribute to changes in complex flocculent community dynamics.

Faces and emotions: brain electric field sources during covert emotional processing

Covert brain activity related to task-free, spontaneous (i.e. unrequested), emotional evaluation of human face images was analysed in 27-channel averaged event-related potential (ERP) map series recorded from 18 healthy subjects while observing random sequences of face images without further instructions. After recording, subjects self-rated each face image on a scale from “liked” to “disliked”. These ratings were used to dichotomize the face images into the affective evaluation categories of “liked” and “disliked” for each subject and the subjects into the affective attitudes of “philanthropists” and “misanthropists” (depending on their mean rating across images). Event-related map series were averaged for “liked” and “disliked” face images and for “philanthropists” and “misanthropists”. The spatial configuration (landscape) of the electric field maps was assessed numerically by the electric gravity center, a conservative estimate of the mean location of all intracerebral, active, electric sources. Differences in electric gravity center location indicate activity of different neuronal populations. The electric gravity center locations of all event-related maps were averaged over the entire stimulus-on time (450 ms). The mean electric gravity center for disliked faces was located (significant across subjects) more to the right and somewhat more posterior than for liked faces. Similar differences were found between the mean electric gravity centers of misanthropists (more right and posterior) and philanthropists. Our neurophysiological findings are in line with neuropsychological findings, revealing visual emotional processing to depend on affective evaluation category and affective attitude, and extending the conclusions to a paradigm without directed task.