Our Program and Focus Areas

Landscape science for ecosystem solutions

SFEI’s Resilient Landscapes Program develops innovative ecosystem restoration and management strategies to re-establish and sustain key eco¬logical functions and services. These strategies are helping integrate natural and human infrastructure to create systems that are more adaptive to climate change and other stressors. The Program has several focus areas:

  • SFEI’s pioneering Historical Ecology studies provide a new foundation for understanding the inherent potential in local landscapes, helping identify and prioritize land¬scape restoration and management options.
  • Integrative Geomorphology investigates geomorphic processes in watersheds and tidal environments to help develop resilient landscape management approaches that consider climate change and other key ecosystem drivers.
  • Through Landscape Ecology, we bring advanced spatial analysis to incorporate ecological patterns and processes to landscape designs at multiple scales.
  • Our work in Wetland Science creates tools for designing, tracking, and visualizing changing conditions in our valued aquatic resources.
  • Resilient landscapes are also cultural landscapes. SFEI strives to bring the perspectives of non-governmental organizations, governmental agencies, and indigenous peoples into the broader conversation about ecosystem stewardship.
  • These diverse tools are applied though SFEI’s Center for Resilient Landscapes. The CRL is turning the San Francisco Bay Area into a world leader in utilization of landscape data to help restore and sustain natural ecosystem benefits. The Center brings together new understanding of how California landscapes work with advanced tools to assess and track landscape change in a creative setting that links scientists,resource managers, and the public. Drawing on the diversity and complexity of the native California landscape, we can reshape our neighborhoods, cities, and surrounding lands to be ecologically abundant, resilient landscapes.

We recognize that resilient landscapes are ultimately cultural landscapes. We therefore strive to bring the perspec­tives of non-governmental organizations as well as governmental agencies into the broader conversation about ecosys­tem stewardship. We are expanding the Program to include Traditional Ecological Knowledge, especially the natural resource management practices of indigenous people, to further broaden the discussion of what is possible and appropriate to achieve through collaborative landscape design and management.

For additional information, please contact Program Director Robin Grossinger, Program Director Letitia Grenier, or Program Manager Ruth Askevold.

Historical Ecology synthesizes diverse historical records to learn how habitats were distributed and ecological functions were maintained within the native California landscape. Understanding how streams, wetlands, and woodlands were organized along physical gradients helps scientists and managers develop new strategies for more integrated and functional landscape management. T-sheet_in_the_field_6pt75in_wide_96dpi.jpg

Understanding the Changing Landscape

Given the dramatic changes to California landscapes during the past two centuries, we often have only rudimentary understanding of the systems we seek to protect and enhance. In fact, there is a growing recognition that restoration efforts have often misinterpreted earlier conditions, resulting in missed opportunities and, in some cases, failed projects. However, the development of accurate, reliable, and broadly-supported pictures of historical condition and change can help correctly identify the causes of current challenges, and reveal previously unrecognized management options. Historical reconstructions also educate and engage the public imagination, increasing public will for local and regional landscape stewardship.

History and Restoration in a Changing Climate

Researchers are increasingly recognizing that restoration and conservation strategies have often been misguided (and unsuccessful) because of a lack of understanding of historical conditions (e.g. Hamilton 1997, Kondolf et al. 2001, Foster and Motzkin 2003, Merritts and Walter 2008). This is particularly true in California, where our cultural memory is short and we have tended to impose concepts appropriate to more humid regions to our Mediterranean and semiarid landscapes (which will become only more so).

In fact, the natural climatic diversity of the region provides a framework for understanding the adaptation of local ecosystems across a surprisingly broad climatic gradient. Historical ecology reveals a landscape well-designed for extreme seasonal and interannual climatic variability and controlled by fundamental geologic controls that remain intact -- the "dry side of the ecological palette" that has been largely overlooked in conservation planning.

History shows how human efforts have tended to ignore these Mediterranean characteristics and reshaped the landscape according to different, imported conceptions. But it also reveals successful early adaptations (e.g., native land management, towns in the shade of oak groves, early dry farming and oyster farming, creeks as "sediment hoses") that can inspire creative, locally-calibrated management strategies. Climate change increases the need to understand and manage ecosystem functions adaptively along broad topographic, hydrological, and climatic gradients within the context of evolving cultural landscapes, rather than focusing on narrow, project-specific targets.

Applying Historical Ecology

SFEI's historical ecology studies have contributed to numerous restoration projects in the Bay Area and coastal California. Projects are carried out in collaboration with local partners and with a team of regional and local science advisers, with results made broadly available through website, publication, and presentation. SFEI's innovative approaches have been featured in New Scientist Magazine, Landscape Journal, The Living Landscape: An Ecological Approach to Landscape Planning, the McGraw-Hill Encyclopedia of Science and Technology, and the Historical Ecology Handbook, as well as general audience science programs such as KQED’s QUEST and the Saving the Bay documentary.

More About Historical Ecology

  • Egan, D and EA Howell. 2005. The Historical Ecology Handbook: A Restorationist's Guide to Reference Ecosystems. Island Press. Washington DC.
  • Montgomery, DR, 2008. Dreams of Natural Streams. Science 319(5861):291-292.
  • Sauer , CO. 1930. Historical Geography and the Western Frontier. In Land and Life: A Selection from the Writings of Carl Ortwin Sauer. UC Press 1969.
  • Swetnam, TW, CD Allen, and JL Betancourt. 1999. Applied Historical Ecology: Using the Past to Manage for the Future. Ecological Applications 9(4):1189-1206.

The Historical Ecology Team

Landscape Ecology focuses on landscape planning for wildlife, with an emphasis on producing practical scientific information to aid resource managers in making decisions that will optimize benefits for wildlife. Our goal is to provide input that will improve how restoration projects and planning efforts take into account and plan for the needs of wild animals and plants across the regional landscape and over time. Recent projects include landscape analyses of the ecological connectivity of habitats in eastern Marin County and development of wetland mercury biosentinel species to aid tidal marsh restoration planning. more >

Manager: Letitia Grenier, Ph.D.

The Wetland Science Focus Area provides scientific and technological support for coordinated, collaborative, cost-effective wetland planning, management, assessment, and reporting across government policies and programs. Working with other Focus Areas at SFEI, and with many outside partners, we help all interests develop place-based goals for wetland protection by developing and implementing tools, such as Historical Ecology,  the California Aquatic Resource Inventory (CARI), and the California Rapid Assessment Method for wetlands (CRAM) to understand how the abundance, diversity, and condition of wetlands have changed due to nature and people, and to explore alternative ways to protect and restore wetlands for the future.

What are Wetlands?

Wetlands are landscape features with aquatic and terrestrial characteristics. They form the shores of aquatic features, like lakes and rivers and tidal bays, but they also exist by themselves, surrounded entirely by uplands. They have their own unique flora and fauna. In fact, wetland can be identified by indicative plants adapted to saturated soils. There are many kinds of wetlands in the western US with colorful common names: ponds, bogs, fens, swamps, marshes, vernal pools, hog wallows, wet meadows, playas, bottomlands, seeps, springs, swales, and sloughs – just to name a few. They have technical names too: marine, estuarine, palustrine, riverine, depressional, slope, flat.

Why are Wetlands Important?

There are many names for wetlands because they take many forms and do many things for people. Some of the common services of wetlands are: water quality improvement, flood control, shoreline protection, groundwater supply, fish and wildlife support, recreation, food production, beautification, and climate moderation. Numerous species of birds and mammals rely on wetlands for food, water, and shelter, especially while migrating and breeding. More than half of the threatened and endangered species rely directly or indirectly on wetlands for their survival. Wetlands can receive, store, and release water, and therefore strongly influence the hydrological cycler and water availability. They improve water quality by intercepting surface runoff and removing or retaining inorganic nutrients, processing organic wastes, and reducing suspended sediments. Wetlands store carbon as organic soil instead of releasing it to the atmosphere as carbon dioxide, a greenhouse gas affecting global climate change.

Protecting Wetlands

Because of their many valuable services to people, wetlands are protected by federal, state, and local laws and policies intended to reverse historical trends in wetland loss. There are many agencies involved in protecting wetlands by regulating how they are used, providing tax incentives to protect privately owned wetlands, and to acquire wetlands as parks, wildlife refuges, and open space. The federal and state agencies most directly responsible for wetlands have recently begun developing watershed approaches to comprehensive wetland protection.  

SFEI's Wetland Science Focus Area is involved in over a dozen projects that support the California Wetland and Riparian Area Protection Policy, providing science support and technical tools for wetland monitoring, tracking, and reporting on the distribution, abundance and condition of wetlands accross the state.  More Information.

Wetland Science Focus Area Team


The Integrative Geomorphology Focus Area investigates geomorphic processes in watersheds and tidal environments to help develop resilient landscape management approaches that consider climate change and other key ecosystem drivers. By working closely with the Hydrology, Landscape Ecology, Watershed Loadings, and Historical Ecology Focus Areas, the Integrative Geomorphology Focus Area provides an understanding of historical and contemporary fluvial and tidal physical processes and landscape evolution at a range of spatial and temporal scales. This understanding is essential for helping mangers determine the magnitude of landscape sensitivity to natural and anthropogenic influences, identify short-term and long-term management priorities, and develop sustainable solutions for key habitat creation and maintenance under projected future conditions.

Topics currently under investigation by the Integrative Geomorphology Focus Area include the following:

  • Regional assessment of watershed geomorphic and ecological processes in San Francisco Bay tributaries for past, present, and projected future conditions
  • Investigating the role of watershed sediment delivery on marsh survival under a rising sea level around San Francisco Bay
  • Historical evolution of the San Francisco Bay shoreline and assessment of future shoreline resilience
  • Regional assessment of climate change impacts on the fluvial-tidal transition location for San Francisco Bay tributaries
  • Developing a new approach to flood control channel design at the Bay interface that supports critical marsh habitat restoration and creation

Manager: Scott Dusterhoff


Realizing the Full Potential of California Ecosystems

SFEI has received initial funding from the San Francisco-based Seed Fund to establish the Center for Resilient Landscapes. The Center will promote creative and integrative responses to the challenge of climate change by drawing on SFEI’s deep understanding of the diversity, complexity, and functions of California’s native landscapes.


What is a “resilient landscape”?

1_Oaks.jpgAn ecologically resilient landscape is able to absorb and accommodate stressors and variability (such as increased temperatures or more frequent floods) while still maintaining its fundamental structure and function – that is, it is able to both persist and adapt in the face of change. In the recent past, California ecosystems were often resilient to these and other stressors. In contrast, many of today’s ecosystems have been highly homogenized and fragmented, making them less resilient and more sensitive to environmental and other perturbations.



What is the goal of the Center for Resilient Landscapes?

4_hand_map.jpgAdaptation to climate change in the 21st century requires redesigning our landscapes as resilient, interconnected systems that have the ability to adapt over time. The diversity and complexity of the native California landscape offers many of the solutions to this challenge, providing a broad palette of strategies for enhancing the ecological function and resilience of our landscapes. Revealed by innovative techniques such as historical ecology, this understanding of how our landscapes functioned in the recent past helps reveal their underlying, often surprising, potential. The Center will use historical ecology, along with other tools, to identify the inherent potential in our existing landscapes and create visions and strategies for achieving that potential.



Who is the Center for Resilient Landscapes?

3_RL_Zone.jpgThe Center will be led by SFEI senior scientist Robin Grossinger, and will draw on SFEI staff from the Resilient Landscapes Program and other programs across the Institute. In addition, the Center will bring together an interdisciplinary group of scientists, engineers, and designers from California and beyond to advise and guide activities.




What will the Center for Resilient Landscapes do?

2_NAIP and Tsheets Redwood Point_v1.jpgWe anticipate the Center will lead a variety of research, advisory, and educational activities, such as: guiding restoration design, hosting forums on relevant issues, developing visualization tools to communicate key findings, and publishing research that synthesizes findings across California watersheds.




Where can I learn more?

For more information, please contact Robin Grossinger.


Projects Related to the Resilient Landscapes Program

California Rapid Assessment Method (CRAM)

CRAM is a standardized, scientifically defensible rapid assessment method for monitoring the ecological conditions of wetlands throughout California. Because it is standardized, one can compare ecological conditions of wetlands locally, regionally and statewide.

Upper Penitencia Creek: Resilient Landscape Vision

The San Francisco Estuary Institute-Aquatic Science Center and the Santa Clara Valley Water District worked with technical advisors and a group of local stakeholders to explore a range of multi-benefit management opportunities along Upper Penitencia Creek, culminating in this Resilient Landscape Vision. The vision focuses on ways to expand flow conveyance and flood water storage from the Coyote Creek confluence upstream to the Dorel Drive bridge in a manner that works with the existing landscape features and supports habitats for native species.

Design by Linda Wanczyk

RipZET: A GIS-based Tool for Estimating Riparian Zones

The Riparian Zone Estimator Tool (RipZET) is a decision support tool developed by the San Francisco Estuary Institute and Aquatic Science Center for the California Riparian Habitat Joint Venture and the California Water Resources Control Board to assist in the visualization and characterization of riparian areas in the watershed context.

San Francisco Bay Shore Inventory

SFEI is developing an online interactive map to support regional planning and assessment given accelerated sea level rise around the Bay.

Understanding Change in Primary Production at a Landscape Scale in the Delta

Constraints on primary production and the relative importance of different production sources to the food web remain major uncertainties in the Delta ecosystem. Newly available spatial data developed as part of the Delta Historical Ecology and Delta Landscapes projects make it possible to explore the effects of landscape configuration and hydrodynamics on primary production in a way that was not previously possible. Proposed order-of-magnitude calculations estimating primary production can ‘bookend’ the potential magnitude of production in the Delta, and inform what is possible in terms of restoration and management options.

Baylands Ecosystem Habitat Goals Project

SFEI's Letitia Grenier served as lead scientist of the Baylands Ecosystem Habitat Goals Project, which yielded a report called The Baylands and Climate Change: What We Can Do. The report is an update to the 1999 Baylands Ecosystem Habitat Goals, which for the first time set comprehensive restoration goals for the San Francisco Bay estuary. Produced by a collaborative of 21 management agencies working with a multi-disciplinary team of over 100 scientists, it synthesizes the latest science—particularly advances in the understanding of climate change and sediment supply—and incorporates projected changes through 2100 to generate new recommendations for achieving and sustaining healthy baylands ecosystems.

Laguna de Santa Rosa Historical Ecology Initiative

The Laguna de Santa Rosa (Laguna) watershed spans 256 square miles and supports a unique complex of biologically diverse ecosystems. Containing the urban centers of Santa Rosa, Sebastopol, Cotati, Rohnert Park, and Windsor, the Laguna watershed encompasses one of the largest floodplains in California. Historically the Laguna watershed supported a diverse ecosystem consisting of oak savanna/vernal pool complexes, riparian forest, emergent and off channel wetlands, and open water.

Lahontan EcoAtlas Development

This project will create an EcoAtlas user community for the Lahontan region of the Sierra Nevada to develop capacities within the region to apply EcoAtlas through existing local, regional, state, and federal programs to track projects and summarize map-based and rapid assessment information at the watershed scale.

California Aquatic Resource Inventory (CARI)

The California Aquatic Resources Inventory (CARI) is a Geographic Information System (GIS) based map of wetlands, streams, and riparian areas within California that is hosted online through EcoAtlas.

Visualizing and Sharing Intensive Data Assessments

With California's drought rapidly changing the outlook for natural resources, decision-makers must be equipped with information and tools that facilitate clear and rapid decisions. The proposed grant would fund the standardization, visualization, and sharing of Level 3 data. 

Publications related to the Resilient Landscapes Program

The Institute has collectively produced more than 1300 reports, articles, and other publications over the course of its 24-year existence. The following list represents those publications associated with this individual program and its focus areas.

Year of Publication: 2020

Baumgarten S, Grossinger R, Bazo M, Benjamin M. Re-Oaking North Bay. Richmond, CA: San Francisco Estuary Institute; 2020 . Report No.: 947.  (20.51 MB) (1.83 MB)
Richey A, Dusterhoff SD, Baumgarten SA, Clark E, Benjamin M, Shaw S, et al.. Restoration Vision for the Laguna de Santa Rosa. Richmond, CA: SFEI; 2020 . Report No.: 983.  (29.19 MB)

Year of Publication: 2019

Spotswood E, Grossinger R, Hagerty S, Bazo M, Benjamin M, Beller E, et al.. Making Nature's City. Richmond, CA: San Francisco Estuary Institute; 2019 . Report No.: 947.  (10.41 MB) (33.4 MB)
Hagerty S, Spotswood E, McKnight K, Grossinger RM. Urban Ecological Planning Guide for Santa Clara Valley. Richmond, CA: San Francisco Estuary Institute; 2019 . Report No.: 941.  (42.6 MB)

Year of Publication: 2018

Baumgarten S, Clark E, Dusterhoff S, Grossinger RM, Askevold RA. Petaluma Valley Historical Hydrology and Ecology Study. Richmond, CA: San Francisco Estuary Institute; 2018 . Report No.: 861.  (121.7 MB) (43.68 MB)
McKnight K, Dusterhoff SD, Grossinger RM, Askevold RA. Resilient Landscape Vision for the Calabazas Creek, San Tomas Aquino Creek, and Pond A8 Area: Bayland-Creek Reconnection Opportunities. Richmond, CA: San Francisco Estuary Institute-Aquatic Science Center; 2018 p. 40. Report No.: 870.  (68.63 MB) (20.14 MB)
Richey A, Dusterhoff SD, McKnight K, Salomon M, Hagerty S, Askevold RA, et al.. Resilient Landscape Vision for Upper Penitencia Creek. Richmond, CA: San Francisco Estuary Institute - Aquatic Science Center; 2018 . Report No.: 894.  (67.6 MB) (11.75 MB)

Where Our Resilient Landscapes Program Works