The predictive value of a battery of imitative articulation and auditory discrimination tests in the speech development of kindergarten children

Thesis (Ed.D.)--Boston Universit

The impact of board processes on board role performance and effectiveness : an empirical study of UK listed companies

In this research the impact of board governance orientation and board processes on board role performance and board effectiveness is examined. Building on existing literature, a model that relates board governance orientation (agency, stakeholder, stewardship and resource dependency) and board processes (cohesiveness, cognitive conflict, affective conflict, communication quality, effort norms, trust and the use of knowledge & skills) to board effectiveness via three mediating variables, board control role, board service role, and board strategy role is developed. The model was tested through a survey of listed companies in the UK. The results are based on 74 companies. The findings show (a) the board undertakes two distinct roles, control and service; (b) process variables, most notably cognitive conflict and the use of knowledge & skills, significantly influence board effectiveness mediated by the board’s control and/or service role; (c) structural variables, specifically the proportion of outsiders on the board, impacts on the board control role; (d) understanding board effectiveness requires a multitheoretic perspective.EThOS - Electronic Theses Online ServiceGBUnited Kingdo

A survey of services for the speech and hearing handicapped in New England

Thesis (Ed. M.)--Boston University, 195

A survey of services for the speech and hearing handicapped in New England

Thesis (Ed. M.)--Boston University, 195

Biosynthetic and environmental effects on the stable carbon isotopic compositions of anteiso- (3-methyl) and iso- (2-methyl) alkanes in tobacco leaves

Abstract available as a pdf file in full text fiel

An improved system to measure leaf gas exchange on adaxial and abaxial surfaces

Measurement of leaf carbon gain and water loss (gas exchange) in planta is a standard procedure in plant science research for attempting to understand physiological traits related to water use and photosynthesis. Leaves carry out gas exchange through the upper (adaxial) and lower (abaxial) surfaces at different magnitudes, depending on the stomatal density, stomatal aperture, cuticular permeability, etc., of each surface, which we account for in gas exchange parameters such as stomatal conductance. Most commercial devices measure leaf gas exchange by combining the adaxial and abaxial fluxes and calculating bulk gas exchange parameters, missing details of the plant's physiological response on each side. Additionally, the widely used equations to estimate gas exchange parameters neglect the contribution of small fluxes such as cuticular conductance, adding extra uncertainties to measurements performed in water-stress or low-light conditions. Accounting for the gas exchange fluxes from each side of the leaf allows us to better describe plants' physiological traits under different environmental conditions and account for genetic variability. Here, apparatus and materials are presented for adapting two LI-6800 Portable Photosynthesis Systems to work as one gas exchange system to measure adaxial and abaxial gas exchange simultaneously. The modification includes a template script with the equations to account for small fluxes. Instructions are provided for incorporating the add-on script into the device's computational sequence, display, variables, and spreadsheet results. We explain the method to obtain an equation to estimate boundary layer conductance to water for the new setup and how to embed this equation in the devices' calculations using the provided add-on script. The apparatus, methods, and protocols presented here provide a simple adaptation combining two LI-6800s to obtain an improved system to measure leaf gas exchange on adaxial and abaxial surfaces

Assessing the CO2 concentration at the surface of photosynthetic mesophyll cells

We present a robust estimation of the CO2 concentration at the surface of photosynthetic mesophyll cells (cw), applicable under reasonable assumptions of assimilation distribution within the leaf. We used Capsicum annuum, Helianthus annuus and Gossypium hirsutumas model plants for our experiments. We introduce calculations to estimate cw using independent adaxial and abaxial gas exchange measurements, and accounting for the mesophyll airspace resistances. The cw was lower than adaxial and abaxial estimated intercellular CO2 concentrations (ci). Differences between cw and the ci of each surface were usually larger than 10 μmol mol−1. Differences between adaxial and abaxial ci ranged from a few μmol mol−1 to almost 50 μmol mol−1, where the largest differences were found at high air saturation deficits (ASD). Differences between adaxial and abaxial ci and the ci estimated by mixing both fluxes ranged from −30 to +20 μmol mol−1, where the largest differences were found under high ASD or high ambient CO2 concentrations. Accounting for cw improves the information that can be extracted from gas exchange experiments, allowing a more detailed description of the CO2 and water vapor gradients within the leaf

The determinants of trust in the boardroom

Using a behavioural perspective, this chapter presents further knowledge on the conditions in the boardroom that facilitate or hinder the presence of trust. Building on previous studies, a model explaining the hypothesised relationships between trust and its determinants (cognitive conflict, communication efficacy, the perception of board members’ competence, affective conflict, and familiarity), with the moderating effects of board meeting frequency and board tenure, was developed. Based on a survey of UK companies, it was found that the perception of board members’ competence and familiarity are positively related to trust, whereas affective conflict is negatively related to trust. The implication of this finding for board practice is that boards of directors should engage in activities such as training and development that increase directors’ perception of each other’s competencies and why affective conflict should be managed in the boardroom

Determinants of maximum tree height in Eucalyptus species along a rainfall gradient in Victoria, Australia

We present a conceptual model linking dry-mass allocational allometry, hydraulic limitation, and vertical stratification of environmental conditions to patterns in vertical tree growth and tree height. Maximum tree height should increase with relative moisture supply and both should drive variation in apparent stomatal limitation. Carbon isotope discrimination (δ) should not vary with maximum tree height across a moisture gradient when only hydraulic limitation or allocational allometry limit height, but increase with moisture when both hydraulic limitation and allocational allometry limit maximum tree height. We quantified tree height and D along a gradient in annual precipitation from 300 to 1600 mm from mallee to temperate rain forest in southeastern Australia; Eucalyptus on this gradient span almost the entire range of tree heights found in angiosperms worldwide. Maximum tree height showed a strong, nearly proportional relationship to the ratio of precipitation to pan evaporation. D increased with ln P/Ep, suggesting that both hydraulic limitation and allocational allometry set maximum tree height. Coordinated shifts in several plant traits should result in different species having an advantage in vertical growth rate at different points along a rainfall gradient, and in maximum tree height increasing with relative moisture supply, photosynthetic rate, nutrient supply, and xylem diameter