Abstracts
Phytoplankton fuels Delta food web
Biomarkers
aid understanding of aquatic organism responses to environmental stressors
Landscape changes in Nevada County reflect social and
ecological transitions
Olive fruit fly populations measured in Central and
Southern California
Insecticide treatments disinfest nursery citrus of
glassy-winged sharpshooter
Drip irrigation increases tomato yields in salt-affected
soil of San Joaquin Valley
Can almond trees directly dictate their irrigation
needs?
Phytoplankton fuels
Delta food web
Alan D. Jassby, James E. Cloern
and Anke B. Müller-Solger
Populations of certain fishes and invertebrates
in the Sacramento-San Joaquin Delta have declined in abundance in
recent decades and there is evidence that food supply is partly
responsible. While many sources of organic matter in the Delta could
be supporting fish populations indirectly through the food web (including
aquatic vegetation and decaying organic matter from agricultural
drainage), a careful accounting shows that phytoplankton is the
dominant food source. Phytoplankton, communities of microscopic
free-floating algae, are the most important food source on a Delta-wide
scale when both food quantity and quality are taken into account.
These microscopic algae have declined since the late 1960s. Fertilizer
and pesticide runoff do not appear to be playing a direct role in
long-term phytoplankton changes; rather, species invasions, increasing
water transparency and fluctuations in water transport are responsible.
Although the potential toxicity of herbicides and pesticides to
plankton in the Delta is well documented, the ecological significance
remains speculative. Nutrient inputs from agricultural runoff at
current levels, in combination with increasing transparency, could
result in harmful algal blooms.
NEWS RELEASE
| FULL
TEXT PDF | Back to top
Biomarkers aid understanding
of aquatic organism responses to environmental stressors
Inge Werner, Stephen L. Clark and
David E. Hinton
Biomarkers can be useful tools for understanding
the complex interactions that govern organism responses to environmental
stressors and their sublethal effects on organism health. We conducted
studies on two types of biomarkers: stress proteins and tissue alterations.
A study on the freshwater fish medaka demonstrates that the ability
to increase cellular stress-protein concentrations at specific life
stages can be vitally important for normal embryo development. A
field study on Asian clam investigates the usefulness of stress
proteins and histopathology as indicators of exposure to and sublethal
effects of environmental stressors in the northern San Francisco
Bay and Delta.
NEWS RELEASE
| FULL TEXT PDF
| Back to top
Landscape changes in
Nevada County reflect social and ecological transitions
Peter A. Walker, Sarah J. Marvin and
Louise P. Fortmann
Large-scale migration of urban people
seeking a better quality of life in rural places has generated considerable
concern about “rural sprawl.” In a multimethod, fine-scale,
longitudinal study of land ownership and use in Nevada County, we
found that this quintessential “exurban” community reveals
a complex story of interacting social and ecological change with
some reasons for concern, but also optimism. Land-use data from
1957 to 2001 shows dramatic fragmentation of the county’s landscape
as a result of increased residential use. The full scale of this
transition is not visible because many parcels that are already
zoned for further subdivision and residential use remain undeveloped.
The related ecological changes have been mixed so far, with tree
cover and riparian areas recovering from historic mining, ranching
and timber harvesting. These changes are not incidental: many residential
owners expressed a strong conservation ethic. However, ecologically
harmful effects of increased residential use are present as well.
In surveys and interviews, rural-residential owners revealed conflicting
feelings about their changing landscape: most are concerned about
preserving their quality of life and preventing the ecological impacts
of further growth, but also do not want additional government regulations.
Research on a fine scale into the cultural basis of ecologically
beneficial and harmful rural-residential land-use practices can
assist policymakers in crafting innovative and effective growth-management
institutions.
NEWS RELEASE
| FULL TEXT
PDF | Back to top
Olive fruit fly populations
measured in Central and Southern California
Richard E. Rice, Phil A. Phillips,
Judy Stewart-Leslie and G. Steven Sibbett
The olive fruit fly was detected in Southern
California in October 1998. This nonnative pest, which can render
fruit unmarketable, has since moved throughout California and is
now believed to be present wherever olives are grown in the state.
Seasonlong trapping of adult flies in the San Joaquin Valley, and
Ventura and Santa Barbara counties in 2001 and 2002 showed similarities
in seasonal phenology, but also differences primarily due to varying
temperatures and fruit availability. In the San Joaquin Valley,
fly activity declined as maximum daily temperatures rose above 90ÕF,
but increased when temperatures were between 70ÕF and 85ÕF. On the
Southern California coast, the combination of available, susceptible
fruit and moderate climate throughout the year may allow continuous
reproduction of OLF with six or perhaps even seven generations per
year.
NEWS RELEASE
| FULL TEXT PDF |
Back to top
Insecticide treatments
disinfest nursery citrus of glassy-winged sharpshooter
Elizabeth E. Grafton-Cardwell, Christopher
A. Reagan and Yuling Ouyang
To protect uninfested areas of California
from glassy-winged sharpshooter (GWSS), the disinfestation of citrus
nursery stock prior to shipment is essential. A nonnative insect,
GWSS transmits the bacterium that causes Pierce’s disease in
grapevines. In our study, GWSS adults were especially sensitive
to two categories of insecticides, the pyrethroids and systemically
applied neonicotinoids. Several insecticides, including the carbamate
carbaryl and a few of the foliar neonicotinoids were highly effective
in preventing GWSS nymphs from successfully emerging from egg masses.
While no pesticide treatment will perfectly protect nursery citrus,
a treatment plan that includes a combination of insecticides that
are effective against adults and emerging nymphs will minimize the
chance of transporting GWSS throughout California.
NEWS RELEASE
| FULL TEXT PDF
| Back to top
Drip irrigation increases
tomato yields in salt-affected soil of San Joaquin Valley
Blaine Hanson and Don May
This study evaluated the potential for
subsurface drip irrigation in processing tomato to reduce subsurface
drainage, control soil salinity and increase farm profits in areas
affected by saline, shallow groundwater.
Subsurface drip irrigation systems were installed in three fields
of fine-textured, salt-affected soil along the West Side of the
San Joaquin Valley. No subsurface drainage systems were installed
in these fields. Yield and quality of processing tomato were compared
with sprinkler irrigation systems. Yields increased 5.4 tons per
acre to 10.1 tons per acre in the drip systems with similar amounts
of applied water. The solids content of drip-irrigated processing
tomato was acceptable. Water-table levels showed that properly managed
drip systems could reduce percolation below the root zone, reducing
subsurface drainage. Yields of the drip systems were also similar
over a range of soil salinity levels.
NEWS RELEASE
| FULL TEXT PDF
| Back to top
Can almond trees directly
dictate their irrigation needs?
David A. Goldhamer, Elias Fereres and
Mario Salinas
Many of California’s fruit and nut
growers have already embraced more efficient irrigation systems
(drip and microsprinkler) and adopted scientific irrigation-scheduling
methods that closely match net applied water to evapotranspiration
(ETc). Further improvements in irrigation efficiency may be possible
by using regulated deficit irrigation (RDI) to purposely stress
trees at specific times of the season. Tree-based RDI triggers for
irrigation scheduling, such as stem water potential (SWP) and maximum
daily trunk shrinkage (MDS), as opposed to soil and atmospheric
measurements, have the major advantage of being directly linked
to crop productivity. The current state of the art in plant-based
scheduling is SWP and MDS, but adoption is hampered by the lack
of field studies validating its effectiveness. We conducted an experiment
in a commercial almond orchard to evaluate the suitability of MDS
measurements as indicators for RDI management. Small, electronic
sensors affixed to the tree trunks continuously recorded diameters
from which MDS values were gleaned and used to schedule two RDI
treatments. We found that with the less severe RDI regime, less
water was applied relative to the cooperator’s nearly fully
irrigated trees with no significant reduction in kernel size or
other important almond parameters. In fact, the RDI regimes accelerated
hull-split, decreased kernel water content and increased the nut-kernel
percentage at harvest — all desirable almond results. We have
demonstrated, for the first time in California, that RDI can be
successfully scheduled based entirely on continuously recorded,
tree-based electronic data. We believe that MDS measurements have
some operational advantages over SWP, including lower labor costs
and the ability to be directly incorporated into remotely operated,
electronic controllers.
NEWS RELEASE
| FULL TEXT PDF
| Back to top
|
