Skip to main content
Advanced Search

Filters: partyWithName: North Pacific LCC (X) > partyWithName: LCC Network Data Steward (X)

Folder: ROOT ( Show direct descendants )

25 results (53ms)   

Location

Folder
ROOT
Filters
Date Range
Extensions
Types
Contacts
Categories
Tag Types
Tag Schemes
View Results as: JSON ATOM CSV
Coastal ecosystems have been identified by the International Panel on Climate Change (2007) as areasthat will be disproportionally affected by climate change. Recent sea-level rise projections range from 0.57to 1.1 m (Jevrejeva et al. 2012) or 0.75 to 1.9 m by Grinsted et al. (2010) and Vermeer and Rahmstorf(2009) by 2100, which are contingent upon the ambient temperature conditions and CO2 emissions. Sealevelrise projections for San Francisco Bay are 1.24 m by 2100 (Cayan et al. 2008). The expectedaccelerated rate of sea-level rise through the 21st century will put many coastal ecosystems at risk,especially those in topographically low-gradient areas.Sea-level rise response modeling was conducted at 12 tidal salt...
The aim of this USGS program is to provide site specific sea-level rise predictions to land managers through the intensive collection of field data and innovative predictive modeling. In 2009 and 2010, thousands of elevation and vegetation survey points were collected in salt marsh at 12 sites surrounding San Francisco Bay. The elevation data was synthesized into a continuous elevation model for each site, providing land owners valuable baseline data. This site hosts the project report, pages describing each of the 12 marshes visited in this study, and maps and GIS data for all of the marshes including high-resolution digital elevation models.
Knowing where a species is found or may be found in the future is critical to developing a successful habitat conservation plan. This quick guide reviews correlation-based and process-based species distribution models and their uses in the context of HCPs. It also addresses considerations for evaluating species distribution models, using multiple models, and working with model uncertainty. Examples are provided.
With HCPs, reserves are created as one means of mitigating take. This means they are designed to provide a target level of benefits for a particular species or set of species. This quick guide reviews approaches for designing and implementing reserves that address climate change impacts, vulnerabilities, and uncertainty. Examples are provided.
We evaluated the biogeomorphic processes of a large (309 ha) tidal salt marsh and examined factors that influence its ability to keep pace with relative sea-level rise (SLR). Detailed elevation data from 1995 and 2008 were compared with digital elevation models (DEMs) to assess marsh surface elevation change during this time. Overall, 37 % (113 ha) of the marsh increased in elevation at a rate that exceeded SLR, whereas 63 % (196 ha) of the area did not keep pace with SLR. Of the total area, 55 % (169 ha) subsided during the study period, but subsidence varied spatially across the marsh surface. To determine which biogeomorphic and spatial factors contributed to measured elevation change, we collected soil cores...
Coastal areas are high-risk zones subject to the impacts of global climate change, with significant increases in the frequencies of extreme weather and storm events, and sea-level rise forecast by 2100. These physical processes are expected to alter estuaries, resulting in loss of intertidal wetlands and their component wildlife species. In particular, impacts to salt marshes and their wildlife will vary both temporally and spatially and may be irreversible and severe. Synergistic effects caused by combining stressors with anthropogenic land-use patterns could create areas of significant biodiversity loss and extinction, especially in urbanized estuaries that are already heavily degraded. In this paper, we discuss...
This set of elevation models was developed to understand current (2010) conditions of San Francisco salt marshes and for input into sea-level rise prediction models. These elevation models were built by interpolating surveyed elevation points. The elevation surveys were conducted with a Leica RX1230 Real-Time Kinematic GPS which is capable of < 2 cm vertical accuracy.
Incorporating climate change into conservation and resource management planning is rapidly becoming a standard of practice, both because of mandates from above (e.g. court cases) and because planners and managers want to do a good job and avoid nasty surprises. There is much of guidance out there for climate smart conservation and planning, both generic and sector-specific. This quick guide is not intended to replicate those, nor to provide everything you need to do a climate smart HCP. The intent is to help users to:1. Understand why it’s important to “ask the climate question” when it comes to HCPs.2. Make users informed consumers of climate change information and expertise. 3. Provide a logic users can follow...
This project uses bottom-up modeling at a parcel scale to measure the effects of sea-level rise (SLR) on coastal ecosystems and tidal salt marshes. At selected tidal marshes, the project team will measure several parameters that will be incorporated into ArcGIS models creating comparable datasets across the Pacific coast tidal gradient with a focus on 2-4 sites in the California LCC (e.g. San Diego, San Francisco Bay Refuges). The ultimate goal is to provide science support tools for local adaptation planning from the bottom-up that may be implemented under a structured decision-making framework.Science Delivery Phase (2013): The objectives are to: (1) Disseminate site-specific baseline data and modeling results,...
Categories: Data, Project; Tags: 2011, 2013, Applications and Tools, CA, CA-Northern, All tags...
The USGS Coastal Ecosystem Response to Climate Change (CERCC) began in 2008 to deliver sea - level rise ecological response mod- els at a scale relevant for resource managers. Work was originally focused on the San Fran- cisco Bay estuary and then expanded to en- compass other Pacific coast sites. Our goal is to provide site specific measurements and results that land managers, planners, and those concerned with the conservation of near- shore habitats can use to make well - informed climate change adaptation strategies and deci- sions.
March 19, 2014 12:00-1:00 pm PSTSpeaker Glen MacDonald, Director of the UCLA Institute for the Environment and Sustainability.This webinar presents some basics on potential rates and magnitudes of relative sea level rise along the California coast over the 21st century as influenced by climate change, tectonics and other related factors. The potential accretion rates of selected marshes relative to anticipated sea level rise will be outlined and a multidisciplinary joint USGS-UCLA project to study past, present and future marsh response to sea level changes will be described.
We took a commonly-used template for HCPs and annotated it section-by-section with key climate considerations. These considerations were based on conversations with HCP practitioners (both applicants and USFWS staff), review of relevant scientific literature and guidance on climate-informed natural resource management, and review of existing HCPs for how if at all they had addressed climate change.
This quick guide gives a very brief introduction to the uses of climate-related information in habitat conservation planning, the different types of information available, and how to use conceptual models to help identify what variables are important. It also addresses working with uncertainty, and deciding whether downscaled models are necessary.
This September, 2014 article in the Orange County Register highlights the project “Sea-level rise modeling across the California salt marsh gradient”.
In California, the near-shore area where the ocean meets the land is a highly productive yet sensitive region that supports a wealth of wildlife, including several native bird species. These saltmarshes, mudflats, and shallow bays are not only critical for wildlife, but they also provide economic and recreational benefits to local communities. Today, sea-level rise, more frequent and stronger storms, saltwater intrusion, and warming water temperatures are among the threats that are altering these important habitats.To support future planning and conservation of California’s near-shore habitats, researchers examined current weather patterns, elevations, tides, and sediments at these sites to see how they affect plants...
Salt marsh elevation and geomorphic stability depends on mineral sedimentation. Many Mediterranean-climate salt marshes along southern California, USA coast import sediment during El Niño storm events, but sediment fluxes and mechanisms during dry weather are potentially important for marsh stability. We calculated tidal creek sediment fluxes within a highly modified, sediment-starved, 1.5-km2 salt marsh (Seal Beach) and a less modified 1-km2 marsh (Mugu) with fluvial sediment supply. We measured salt marsh plain suspended sediment concentration and vertical accretion using single stage samplers and marker horizons. At Seal Beach, a 2014 storm yielded 39 and 28 g/s mean sediment fluxes and imported 12,000 and 8800...
This web site houses the quick guides, worksheets, and templates developed as part of a project focused on helping practitioners integrate climate change into Habitat Conservation Planning under the Endangered Species Act. It also includes a spreadsheet with information on existing HCPs that have addressed climate change. All guides and worksheets are freely downloadable.
In the Pacific Northwest, coastal wetlands support a wealth of ecosystem services including habitat provision for wildlife and fisheries and flood protection. The tidal marshes, mudflats, and shallow bays of coastal estuaries link marine, freshwater, and terrestrial habitats, and provide economic and recreational benefits to local communities. Climate change effects such as sea-level rise are altering these habitats, but we know little about how these areas will change over the next 50–100 years. Our study examined the effects of sea-level rise on nine tidal marshes in Washington and Oregon between 2012 and 2015, with the goal of providing scientific data to support future coastal planning and conservation. We compiled...
Climate change, when combined with more conventional stress from human exploitation, calls into question the capacity of both existing ecological communities and resource management institutions to experience disturbances while substantially retaining their same functions and identities. In other words, the physical and biological effects of climate change raise fundamental challenges to the resilience of natural ecosystems. Perhaps more importantly, the projected scope of ecological shifts from global climate change — and uncertainty about such changes — significantly stresses the capacity of legal institutions to manage ecosystem change. Existing governmental institutions lack the adaptive capacity to manage such...
Workshops were held in each of the 3-6 areas to present study results and solicit visits with managers over 2-3 days. In addition, stakeholder involvement was recruited at 1-3 areas to develop a decision-making tool that incorporates climate change projections in management alternatives.