By Peter Moyle

I have been working on Delta fishes for about 40 years. Increasingly, I have curmudgeonly thoughts about what is needed to make the ecosystem work better. Here I present these thoughts as “Ten Realities” – statements of the obvious that are often overlooked in public debates about the system.

Reality No. 1: The historical Delta ecosystem cannot be restored. The Delta of today bears almost no resemblance to the Delta of 100 years ago. Late 19th century residents would have a hard time recognizing the place.

Gone are the tule-filled flood basins and marshes. Hardly a trace of riparian forest remains. Only 3 percent of the historical wetland acreage exists today. About the only familiar features would be the main sloughs and river channels, and even they have high levees on both sides (Whipple et al. 2012).

What this means is that Delta ecosystem cannot be restored to look or function as it did at some idyllic point in the past. Too much has changed for that to happen. How do you bring back tule or cattail marsh to an island that has sunk 30 feet from decades of farming its peaty soil? You can’t. How do you reverse the dominance of alien plants and animals in the Delta? You can’t (Lund et al. 2007, 2011).

Reality No. 2: The Delta is not one place. Ecologically, the Delta is at least three places: the North Delta, the Central Delta and the South Delta.

Each place is distinctly different in the extent, distribution and characteristics of historical habitat types – tidal wetlands, waterways, lakes and ponds, and riparian forest – as detailed in a recent investigation of the Delta’s ecological history (Whipple et al. 2012). Although the habitats have been dramatically altered, differences in habitat types still hold today.

The differences are important in deciding where habitat improvements will have the best chance of success. The North Delta, for example, is where farming is likely to be sustained indefinitely – and where some of the biggest opportunities for habitat restoration exist. (Moyle et al. 2012). The Central Delta, in contrast, is most likely to change to open water as the result of floods, rising sea level and earthquakes (Lund et al. 2010).

Reality No. 3: All species are not equal. Traditionally, habitat restoration efforts have aimed to recover populations of all native species – rare or not – by creating reserves or parks with restrictions on development. The approach is noble, but it rarely works in aquatic ecosystems. That’s because human activities have already transformed most systems beyond the point they can be meaningfully restored (Reality No. 1).

We should have ecosystems that contain as many California endemic species as possible. But preservation is a demanding enterprise. It requires intensive management of human-dominated ecosystems that contain mixtures of native and non-native species. We humans decide by our actions which of these species are desirable and worth preserving, often without making a conscious choice.

For example, if we want a Delta sport fishery, we should emphasize striped bass rather than largemouth bass. They’re both alien predators, but striped bass need an estuary. If you’re managing for striped bass, you’re more likely to have an estuary that also happens to be good habitat for most native fishes. Keep in mind, though, that the Delta is not homogenous (Reality No. 2). Largemouth bass might be best suited for deeply subsided regions, which may never accommodate natives well.

Reality No. 4: We know a lot about the Delta. “We need better science,” or, “We don’t know enough,” are common rationales for staying the course on Delta management. In reality, the Delta is part of the world’s most studied aquatic ecosystem, the San Francisco Estuary.

Environmental scientists have been steadily taking pulse of the estuary for more than 50 years, be it water quality, fish populations or volume of inflows. The Biennial Bay-Delta Science Conference consistently draws hundreds of researchers. There is even a scientific journal devoted exclusively to the estuary.

I agree that there is never enough information to make decisions with absolute certainty. But we have a lot of information today to guide restoration efforts (Healey et al. 2008; Lund et al. 2010). We have to be willing to take the risk that some decisions made today will be wrong, or at least not exactly right, in retrospect.

Reality No. 5: The Delta will change dramatically, no matter what. When interest groups say they want to protect the Delta, they essentially mean they want to protect the status quo. They think of the orchards, the row crops and the levees as constants, as with the largemouth bass fishery and the winter cornfields full of sandhill cranes and swans.

But the Delta has always been changing, especially in the past 150 years (Reality No. 1). Dramatic, rapid change is in its future (Lund et al. 2007; Lund 2011). An earthquake, giant storms and/or sea level rise will transform much of the estuary into open water.

This is not hyperbole. Levees give way even in the absence of extreme events. It was a calm and sunny day in June 2004 when a 350-foot section of levee on the Jones Tract west of Stockton collapsed, flooding farmland and sending officials scrambling to restore the levee and pump out the island.

Reality No. 6: Island flooding is a mixed bag for native fish. Flooded islands at intertidal elevations can create more habitats for some native fish, as the flooding of Liberty Island demonstrates.

Levee breaks and flooding of deeply subsided islands in the south and central Delta will create lakes that favor non-native fish and invertebrates. But with the right flows, salinity and temperature, flooded islands also could support desirable plankton-feeding fishes such as young striped bass and delta smelt (Moyle 2008).

Reality No. 7: Climate change will alter the Delta ecosystem. Regional climate change is likely already affecting the magnitude, timing, duration and temperatures of flows to the Delta.

The projected increase in frequency and magnitude of winter floods will increase pressures on levees and the likelihood of widespread, multi-island floods, particularly in the south and central Delta. Also, many levees will not be able to sustain climate-induced sea level rise, which is projected to be 1 to 1.5 meters by the end of this century.

Longer periods of drought, another predicted effect of climate change, would result in more fresh water being captured for humans and less flowing through the Delta for fish. In dry years, temperatures may reach levels lethal for native fishes such as delta smelt (Brown et al. 2011). Thus, many native fishes in the Delta may not survive under climate change (Moyle et al. 2012). But if we plan for climate change – for example, use cold water storage of upstream reservoirs combined with the cool, deep pools in the subsided delta – we we may be able to create conditions for most of these fishes to make it.

Reality No. 8: Alien species cause major ecosystem changes. The Delta is part of the most “invaded” estuary in the world. The pace of invasions appears to have increased in recent decades. At least 185 alien species of aquatic and terrestrial plants and animals now inhabit the Delta. They have profoundly changed Bay-Delta food webs and habitats, mostly (but not always) to the detriment of native species.

Two of the bigger ecological troublemakers are the Brazilian waterweed (Egeria densa) and the overbite clam (Potamocorbula amurensis). With densities as high as 10,000 per square meter, the dime-size clams suck up enormous amounts of plankton, robbing Delta smelt and other pelagic fish of food. Meanwhile, dense patches of the prolific Brazilian waterweed are slowing tidal flows and creating lake-like conditions favorable to bass, sunfish and other non-native fish.

Reality No. 9: A Delta that is variable in time and space will be best for native fish. We’ve transformed the Delta from a highly variably ecosystem favored by native fish to a lake-like environment with more uniform habitats.

If we want native fish in the future, we need to reintroduce variability on a large scale. Variability means a wider range both in the conditions of the water – temperature, salinity and turbidity – and in habitat types – tidal wetlands, waterways, lakes and ponds, and riparian forest (Moyle et al 2010).

Reality No. 10: Accomplishing “coequal’ goals in the Delta means greatly improving conditions for fish. The 2009 Delta Reform Act mandates that the state achieve the “coequal goals” of providing a more reliable water supply for California and protecting, restoring and enhancing the Delta ecosystem.

The reality is that the water priorities for people and fish and have never been anything approaching equal. The environment has always gotten the short end of the stick.

So achieving coequal goals should mean greatly improving conditions for fish, first, and then figuring out how to share the water better. It means we should give far greater consideration to native and other desirable species in the way we release water from dams and move it through the Delta.

In my gloomier days, I think “co-equal goals” really means just slowing the native fishes’ slide towards extinction, so we can say, “Well, we tried.” But fundamentally I am an optimist. I like to think of a rosier future for the Delta ecosystem under the rubric of “reconciliation ecology” (Rosenzweig 2002).

This means we accept the fact that all species live in human-dominated ecosystems, and that we must make those systems as welcoming as possible for the desirable (mostly native) species. This means greater integration of natural processes into the management of all areas, whether cities, farms, wildlands or waterways.

This will not be easy. But I love to think of the Delta as the first place in California where reconciliation ecology is applied on a large scale.

Peter Moyle is a UC Davis professor of fish biology and an associate director of the university’s Center for Watershed Sciences.

Further reading

Brown LR, Bennett W, Wagner RW, Morgan-King T, Knowles N, Feyrer F, Schoellhamer DH, Stacey MT, Dettinger M. 2011. Implications for Future Survival of Delta Smelt from Four Climate Change Scenarios for the Sacramento–San Joaquin Delta, California. Estuaries and Coasts DOI 10.1007/s12237-013-9585-4

Healey, et al. 2008. The State of Bay-Delta Science 2008, CALFED Science Program, Sacramento, CA.

Lund (2011), “Sea level rise and Delta subsidence—the demise of subsided Delta islands,” CaliforniaWaterBlog.com, March 9, 2011.

Lund J, Hanak E, Fleenor W, Howitt R, Mount JF, Moyle PB. 2007. Envisioning Futures for the Sacramento-San Joaquin Delta, Public Policy Institute of California, San Francisco, CA.

Lund J, Hanak E, Fleenor W, Bennett W, Howitt R, Mount J, Moyle PB, Comparing Futures for the Sacramento-San Joaquin Delta, University of California Press, Berkeley, CA, February 2010.

Lund J, Moyle PB, Hanak E, Mount JF, “No going back for the Delta, but which way forward?”, CaliforniaWaterBlog.com, June 22, 2011.

Moyle PB. 2002. Inland Fishes of California, Revised and Expanded. Berkeley: University of California Press. 502 pp.

Moyle, PB. 2008. The future of fish in response to large-scale change in the San Francisco Estuary, California. Pages 357-374 In K.D. McLaughlin, editor. Mitigating Impacts of Natural Hazards on Fishery Ecosystems. American Fishery Society, Symposium 64, Bethesda, Maryland.

Moyle PB, Bennett W, Durand J, Fleenor W, Gray B, Hanak E, Lund J, Mount JF. 2012. Where the wild things aren’t: making the Delta a better place for native species. San Francisco: Public Policy Institute of California. 53 pages.

Moyle PB, Lund J, Bennett W, et al. 2010. Habitat Variability and Complexity in the Upper San Francisco Estuary. San Francisco Estuary and Watershed Science 8(3):1-24.

Moyle PB, Quiñones RM, Kiernan JD. 2012b. Effects of climate change on the inland fishes of California, with emphasis on the San Francisco Estuary region. California Energy Commission, Public Interest Research Program White Paper CEC-500-2011-037. 211 pp.

Rosenzweig, ML. 2003. Win-win ecology: how the earth’s species can survive in the midst of human enterprise. Oxford: Oxford University Press.

Whipple AA, Grossinger RM, Rankin D, Stanford B, Askevold RA . 2012. Sacramento-San Joaquin Delta Historical Ecology Investigation: Exploring Pattern and Process. Prepared for the California Department of Fish and Game and Ecosystem Restoration Program. A Report of SFEI-ASC’s Historical Ecology Program, SFEI-ASC Publication #672, San Francisco Estuary Institute-Aquatic Science Center, Richmond, CA.