BEGINNING A NEW ERA OF DROUGHT MONITORING ACROSS NORTH AMERICA

Drought experts from the United States, Canada, and Mexico met at the National Climatic Data Center in Asheville, North Carolina, for a three-day workshop in late April 2002 to discuss the U.S. Drought Monitor program and to develop a plan for initiating a new program of drought monitoring for North America. Since its inception in 1999, the U.S. Drought Monitor (DM) has been extremely successful in assessing and communicating the state of drought in the United States on a weekly basis. This success, and the recognition that an ongoing comprehensive and integrated drought assessment was needed throughout all three countries, led to a commitment to build a continent-scale program on the model of the DM. The new drought monitoring program is part of a broader effort to improve the monitoring and assessment of climate extremes across the continent through a cooperative effort that was established in 2001 between the three countries. Drought monitoring has become an integral part of drought planning, preparedness, and mitigation efforts at the national, regional, and local levels. Drought can develop in all regions of the continent, and its effects can be devastating. Since 1980, major droughts and heat waves within the United States alone have resulted in costs exceeding $100 billion (inflation-adjusted), easily becoming one of the most costly weather-related disasters on the continent during that time (Lott and Ross 2000). The presence of severe to extreme drought in approximately 30% of the United States at the beginning of June 2002, heavy agricultural losses, water restrictions, and numerous large wildfires throughout much of the western United States are reminders of the devastation that can result from prolonged precipitation deficits

Observing Sea States

Sea state information is needed for many applications, ranging from safety at sea and on the coast, for which real time data are essential, to planning and design needs for infrastructure that require long time series. The definition of the wave climate and its possible evolution requires high resolution data, and knowledge on possible drift in the observing system. Sea state is also an important climate variable that enters in air-sea fluxes parameterizations. Finally, sea state patterns can reveal the intensity of storms and associated climate patterns at large scales, and the intensity of currents at small scales. A synthesis of user requirements leads to requests for spatial resolution at kilometer scales, and estimations of trends of a few centimeters per decade. Such requirements cannot be met by observations alone in the foreseeable future, and numerical wave models can be combined with in situ and remote sensing data to achieve the required resolution. As today's models are far from perfect, observations are critical in providing forcing data, namely winds, currents and ice, and validation data, in particular for frequency and direction information, and extreme wave heights. In situ and satellite observations are particularly critical for the correction and calibration of significant wave heights to ensure the stability of model time series. A number of developments are underway for extending the capabilities of satellites and in situ observing systems. These include the generalization of directional measurements, an easier exchange of moored buoy data, the measurement of waves on drifting buoys, the evolution of satellite altimeter technology, and the measurement of directional wave spectra from satellite radar instruments. For each of these observing systems, the stability of the data is a very important issue. The combination of the different data sources, including numerical models, can help better fulfill the needs of users

'Embrace the masculine; attenuate the feminine': gender, identity work and entrepreneurial legitimation in the nascent context

This paper critically analyses how gender bias impacts upon women’s efforts to legitimate nascent ventures. Given the importance of founder identity as a proxy for entrepreneurial legitimacy at nascency, we explore the identity work women undertake when seeking to claim legitimacy for their emerging ventures in a prevailing context of masculinity. In so doing, we challenge taken for granted norms pertaining to legitimacy and question the basis upon which that knowledge is claimed. In effect, debates regarding entrepreneurial legitimacy are presented as gender neutral yet, entrepreneurship is a gender biased activity. Thus, we argue it is essential to recognise how gendered assumptions impinge upon the quest for legitimacy. To illustrate our analysis, we use retrospective and real time empirical evidence evaluating legitimating strategies as they unfold, our findings reveal tensions between feminine identities such as ‘wife’ and ‘mother’ and those of the prototypical entrepreneur. This dissonance prompted women to undertake specific forms of identity work to bridge the gap between femininity, legitimacy and entrepreneurship. We conclude by arguing that the pursuit of entrepreneurial legitimacy during nascency is a gendered process which disadvantages women and has the potential to negatively impact upon the future prospects of their fledging ventures

Storm surges and extreme sea levels: Review, establishment of model intercomparison and coordination of surge climate projection efforts (SurgeMIP).

Coastal flood damage is primarily the result of extreme sea levels. Climate change is expected to drive an increase in these extremes. While proper estimation of changes in storm surges is essential to estimate changes in extreme sea levels, there remains low confidence in future trends of surge contribution to extreme sea levels. Alerting local populations of imminent extreme sea levels is also critical to protecting coastal populations. Both predicting and projecting extreme sea levels require reliable numerical prediction systems. The SurgeMIP (surge model intercomparison) community has been established to tackle such challenges. Efforts to intercompare storm surge prediction systems and coordinate the community's prediction and projection efforts are introduced. An overview of past and recent advances in storm surge science such as physical processes to consider and the recent development of global forecasting systems are briefly introduced. Selected historical events and drivers behind fast increasing service and knowledge requirements for emergency response to adaptation considerations are also discussed. The community's initial plans and recent progress are introduced. These include the establishment of an intercomparison project, the identification of research and development gaps, and the introduction of efforts to coordinate projections that span multiple climate scenarios

BEGINNING A NEW ERA OF DROUGHT MONITORING ACROSS NORTH AMERICA

Drought experts from the United States, Canada, and Mexico met at the National Climatic Data Center in Asheville, North Carolina, for a three-day workshop in late April 2002 to discuss the U.S. Drought Monitor program and to develop a plan for initiating a new program of drought monitoring for North America. Since its inception in 1999, the U.S. Drought Monitor (DM) has been extremely successful in assessing and communicating the state of drought in the United States on a weekly basis. This success, and the recognition that an ongoing comprehensive and integrated drought assessment was needed throughout all three countries, led to a commitment to build a continent-scale program on the model of the DM. The new drought monitoring program is part of a broader effort to improve the monitoring and assessment of climate extremes across the continent through a cooperative effort that was established in 2001 between the three countries. Drought monitoring has become an integral part of drought planning, preparedness, and mitigation efforts at the national, regional, and local levels. Drought can develop in all regions of the continent, and its effects can be devastating. Since 1980, major droughts and heat waves within the United States alone have resulted in costs exceeding $100 billion (inflation-adjusted), easily becoming one of the most costly weather-related disasters on the continent during that time (Lott and Ross 2000). The presence of severe to extreme drought in approximately 30% of the United States at the beginning of June 2002, heavy agricultural losses, water restrictions, and numerous large wildfires throughout much of the western United States are reminders of the devastation that can result from prolonged precipitation deficits

Sensory aids for the blind. I, Reading machines

This is intended to be the first in a series of short articles on various subjects relating to research on sensory aids for the blind.NRC publication: Ye

Falcon 20 Reduced Gravity Research Program Annual Report FY 2008

NRC publication: Ye