A Simple Theory of Increasing Penalties for Repeat Offenders

A feature of many penal codes is that punishments are more severe for repeat offenders, yet economic models have had a hard time providing a theoretical justification for this practice. This paper offers an explanation based on the wage penalty suffered by individuals convicted of crime. While this penalty probably deters some first-timers from committing crimes, it actually hampers deterrence of repeat offenders because of their diminished employments opportunities. We show that in this setting, an escalating penalty scheme is optimal and time consistent.

The Texas driver responsibility program: A preliminary analysis of the impact on impaired driving and trauma system funding

Objective. In 2003, the State of Texas instituted the Driver Responsibility Program (TDRP), a program consisting of a driving infraction point system coupled with a series of graded fines and annual surcharges for specific traffic violations such as driving while intoxicated (DWI). Approximately half of the revenues generated are earmarked to be disbursed to the state's trauma system to cover uncompensated trauma care costs. This study examined initial program implementation, the impact of trauma system funding, and initial impact on impaired driving knowledge, attitudes and behaviors. A model for targeted media campaigns to improve the program's deterrence effects was developed. ^ Methods. Data from two independent driver survey samples (conducted in 1999 and 2005), department of public safety records, state health department data and a state auditor's report were used to evaluate the program's initial implementation, impact and outcome with respect to drivers' impaired driving knowledge, attitudes and behavior (based on constructs of social cognitive theory) and hospital uncompensated trauma care funding. Survey results were used to develop a regression model of high risk drivers who should be targeted to improve program outcome with respect to deterring impaired driving. ^ Results. Low driver compliance with fee payment (28%) and program implementation problems were associated with lower surcharge revenues in the first two years ($59.5 million versus $525 million predicted). Program revenue distribution to trauma hospitals was associated with a 16% increase in designated trauma centers. Survey data demonstrated that only 28% of drivers are aware of the TDRP and that there has been no initial impact on impaired driving behavior. Logistical regression modeling suggested that target media campaigns highlighting the likelihood of DWI detection by law enforcement and the increased surcharges associated with the TDRP are required to deter impaired driving. ^ Conclusions. Although the TDRP raised nearly $60 million in surcharge revenue for the Texas trauma system over the first two years, this study did not find evidence of a change in impaired driving knowledge, attitudes or behaviors from 1999 to 2005. Further research is required to measure whether the program is associated with decreased alcohol-related traffic fatalities. ^

Evaluación de la preferencia de Liriomyza spp. en genotipos diferentes de garbanzo y efecto del extracto de Melia azedarach L. : resultados preliminares

En Argentina se están desarrollando genotipos de garbanzo (Cicer arietinum L.) para adecuarlos a las distintas zonas de producción. Estos presentan diferentes fenotipos lo que podría afectar las preferencias de oviposición de los insectos herbívoros de hábito minador. Los objetivos de este trabajo fueron: 1) determinar si las hembras del género Liriomyza spp. muestran preferencia por algún genotipo de garbanzo, y 2) evaluar el efecto del extracto de Melia azedarach sobre las líneas de garbanzo que resultaran susceptibles. Se sembraron dos líneas selectas y dos cultivares de C. arietinum que presentan hojas unifoliadas enteras o compuestas, en el Campo Experimental de la Facultad de Ciencias Agropecuarias, Universidad Nacional de Córdoba, en bloques al azar con tres repeticiones. Para analizar la preferencia, mediante censos semanales se evaluó la presencia de las larvas de las moscas en el período julio-septiembre. Los dípteros eligieron de manera significativa los genotipos de hoja entera y grande. Posteriormente, las plantas con hojas minadas de las variedades preferidas fueron sometidas a tratamiento con el extracto botánico. Para ello se marcaron cinco plantas de cada bloque: a 15 se les aplicó extracto (10%) y a las otras 15 agua (control). Se observó que el número de hojas minadas, de pupas y adultos emergidos disminuyeron en los tratamientos con el extracto. Estudios complementarios serán necesarios para poder considerar este compuesto natural en un plan de manejo del herbívoro.

Mediterranean copepods' functional traits

Information on the functional traits was gathered for the most commonly-sampled copepod species of the Mediterranean Sea. Our database includes 191 species described by 7 traits encompassing diverse ecological functions: minimal and maximal body length (mm), trophic group (Omnivore/Carnivore/Herbivore/Detritivore), feeding type (Cruise-feeding/Filter-feeding/Ambush-feeding), spawning strategy (Sac-spawner/Free-spawner), diel vertical migration (Non-migrant/Weak-migrant/Strong-migrant) and vertical habitat (prefered depth layer). Using cluster analysis in the functional trait space revealed that Mediterranean copepods can be gathered into groups that have different ecological roles.

Establishment, expansion and regeneration of aspen (Populus tremula) in the Torneträsk area, subarctic Sweden

In subarctic Sweden, recent decadal colonization and expansion of aspen (Populus tremula L.) were recorded. Over the past 100 years, aspen became c. 16 times more abundant, mainly as a result of increased sexual regeneration. Moreover, aspen now reach tree-size (>2 m) at the alpine treeline, an ecotone that has been dominated by mountain birch (Betula pubescens ssp. czerepanovii) for at least the past 4000 years. We found that sexual regeneration in aspen probably occurred seven times or more within the last century. Whereas sexual regeneration occurred during moist years following a year with an exceptionally high June-July temperature, asexual regeneration was favored by warm and dry summers. Disturbance to the birch forest by cyclic moth population outbreaks was critical in aspen establishment in the subalpine area. At the treeline, aspen colonization was less determined by these moth outbreaks, and was mainly restricted by summer temperature. If summer warming persists, aspen spread may continue in subarctic Sweden, particularly at the treeline. However, changing disturbance regimes, future herbivore population dynamics and the responses of aspen's competitors birch and pine to a changing climate may result in different outcomes.

(Table 1) Carbon pools in different vegetation components in grazed and ungrazed plots near Ny-Ålesund, Spitzbergen

The carbon (C) sink strength of arctic tundra is under pressure from increasing populations of arctic breeding geese. In this study we examined how CO2 and CH4 fluxes, plant biomass and soil C responded to the removal of vertebrate herbivores in a high arctic wet moss meadow that has been intensively used by barnacle geese (Branta leucopsis) for ca. 20 years. We used 4 and 9 years old grazing exclosures to investigate the potential for recovery of ecosystem function during the growing season (July 2007). The results show greater above- and below-ground vascular plant biomass within the grazing exclosures with graminoid biomass being most responsive to the removal of herbivory whilst moss biomass remained unchanged. The changes in biomass switched the system from net emission to net uptake of CO2 (0.47 and -0.77 µmol/m**2/s in grazed and exclosure plots, respectively) during the growing season and doubled the C storage in live biomass. In contrast, the treatment had no impact on the CH4 fluxes, the total litter C pool or the soil C concentration. The rapid recovery of the above ground biomass and CO2 fluxes demonstrates the plasticity of this high arctic ecosystem in terms of response to changing herbivore pressure.

Seawater carbonate chemistry, nutrients and growth rate of coral (Acropora intermedia) and coral-reef seaweed (Lobophora papenfussii) during experiments, 2011

Space competition between corals and seaweeds is an important ecological process underlying coral-reef dynamics. Processes promoting seaweed growth and survival, such as herbivore overfishing and eutrophication, can lead to local reef degradation. Here, we present the case that increasing concentrations of atmospheric CO2 may be an additional process driving a shift from corals to seaweeds on reefs. Coral (Acropora intermedia) mortality in contact with a common coral-reef seaweed (Lobophora papenfussii) increased two- to threefold between background CO2 (400 ppm) and highest level projected for late 21st century (1140 ppm). The strong interaction between CO2 and seaweeds on coral mortality was most likely attributable to a chemical competitive mechanism, as control corals with algal mimics showed no mortality. Our results suggest that coral (Acropora) reefs may become increasingly susceptible to seaweed proliferation under ocean acidification, and processes regulating algal abundance (e.g. herbivory) will play an increasingly important role in maintaining coral abundance.

A non-persistently transmitted-virus induces a pull?push strategy inits aphid vector to optimize transmission and spread

Plant viruses are known to modify the behaviour of their insect vectors, both directly and indirectly,generally adapting to each type of virus?vector relationship in a way that enhances transmissionefficiency. Here, we report results of three different studies showing how a virus transmitted in a non-persistent (NP) manner (Cucumber mosaic virus; CMV, Cucumovirus) can induce changes in its host plant,cucumber (Cucumis sativus cv. Marumba) that modifies the behaviour of its aphid vector (Aphis gossypiiGlover; Hemiptera: Aphididae) in a way that enhances virus transmission and spread non-viruliferousaphids changed their alighting, settling and probing behaviour activities over time when exposed toCMV-infected and mock-inoculated cucumber plants. Aphids exhibited no preference to migrate fromCMV-infected to mock-inoculated plants at short time intervals (1, 10 and 30 min after release), butshowed a clear shift in preference to migrate from CMV-infected to mock-inoculated plants 60 min afterrelease. Our free-choice preference assays showed that A. gossypii alates preferred CMV-infected overmock-inoculated plants at an early stage (30 min), but this behaviour was reverted at a later stage andaphids preferred to settle and reproduce on mock-inoculated plants. The electrical penetration graph(EPG) technique revealed a sharp change in aphid probing behaviour over time when exposed to CMV-infected plants. At the beginning (first 15 min) aphid vectors dramatically increased the number of shortsuperficial probes and intracellular punctures when exposed to CMV-infected plants. At a later stage (sec-ond hour of recording) aphids diminished their feeding on CMV-infected plants as indicated by much lesstime spent in phloem salivation and ingestion (E1 and E2). This particular probing behaviour includingan early increase in the number of short superficial probes and intracellular punctures followed by aphloem feeding deterrence is known to enhance the transmission efficiency of viruses transmitted in aNP manner. We conclude that CMV induces specific changes in a plant host that modify the alighting,settling and probing behaviour of its main vector A. gossypii, leading to optimum transmission and spreadof the virus. Our findings should be considered when modelling the spread of viruses transmitted in a NPmanner.

Efecto de la infección por virus persistentes y no persistentes sobre el comportamiento alimenticio, la preferencia, tasa de aterrizaje y asentamiento y la eficacia biológica de Aphis gossypii Glover

En el complejo de plagas que atacan a los principales cultivos hortícolas protegidos, destacan principalmente los Hemípteros, y dentro de estos los pulgones, dada su importancia como vectores de virus que provocan considerables daños y pérdidas económicas. Debido a que la dispersión de la mayoría de los virus de plantas puede ser eficaz con densidades bajas de vectores y su control es muy complicado al no existir métodos curativos para su control, es necesario generar nuevos conocimientos sobre las interacciones virus-vector con el fin de desarrollar nuevas y eficaces estrategias de control. Por ello, el objetivo general de esta Tesis ha sido conocer el efecto de la infección viral (directo-mediado por la presencia del virus en el vector- e indirecto-mediado por las alteraciones físico-químicas que se originan en la planta como consecuencia de la infección viral-) sobre el comportamiento y eficacia biológica del vector Aphis gossypii Glover y sus posibles repercusiones en la epidemiología de virosis de transmisión no persistente (Cucumber mosaic virus, CMV, Cucumovirus) y persistente (Cucurbit aphid-borne yellows virus, CABYV, Polerovirus). El primer objetivo de esta Tesis Doctoral, se centró en el estudio del efecto indirecto del virus de transmisión no persistente CMV sobre el comportamiento alimenticio y la preferencia del pulgón A. gossypii en el cultivo de pepino. Los ensayos de despegue y aterrizaje mostraron que los pulgones que fueron liberados en las plantas de pepino infectadas con CMV tuvieron una mayor propensión en migrar hacia las plantas no infectadas (60, 120 y 180 minutos después de la liberación) que aquellos que fueron sometidos al tratamiento contrario (planta no infectada hacia planta infectada con CMV). El estudio de preferencia y asentamiento mostró que el vector A. gossypii prefiere asentarse en plantas infectadas con CMV en una etapa temprana de evaluación (30 minutos después de la liberación). Sin embargo, este comportamiento se revirtió en una etapa posterior (4 y 48 horas después de la liberación), donde los pulgones se asentaron más en las plantas no infectadas. A través de la técnica de Gráficos de Penetración Eléctrica (EPG) se observó un efecto indirecto del virus CMV, revelado por un cambio brusco en el comportamiento de prueba del pulgón a lo largo del tiempo, cuando éstos fueron expuestos a las plantas infectadas con CMV. Los primeros 15 minutos de registro EPG mostraron que los pulgones hicieron un número mayor de punciones intracelulares (potencial drops - pds) y pruebas en las plantas infectadas con CMV que en las plantas no infectadas. Por otra parte, la duración de la primera prueba fue más corta y la duración total de las pds por insecto fue mucho más larga en las plantas infectadas con CMV. Se observaron diferencias significativas en el tiempo transcurrido desde el final de la última pd hasta el final de la prueba, siendo ese tiempo más corto para los pulgones que estaban alimentándose en plantas infectadas con CMV. En la segunda hora de registro los pulgones rechazaron las plantas infectadas con CMV como fuente de alimento, permaneciendo menos tiempo en las fases de prueba en floema (fase de salivación – E1 y fase de ingestión del floema – E2). El comportamiento alimenticio observado sobre las plantas infectadas con CMV favorece la adquisición y posterior transmisión de los virus de transmisión no persistente, los cuales son adquiridos e inoculados durante la realización de pruebas intracelulares en las primeras pruebas de corta duración. En el segundo objetivo de la Tesis se evaluó el efecto directo e indirecto del virus de transmisión persistente CABYV en el comportamiento alimenticio y preferencia del pulgón A. gossypii en cultivo de pepino, especie susceptible al virus, y algodón, especie inmune al virus. No se observó un efecto directo del virus relevante en el comportamiento alimenticio del vector, ya que los resultados obtenidos a nivel floemático en plantas de pepino no se observaron en plantas de algodón, inmune al virus CABYV. Esto sugiere que los resultados obtenidos en pepino, pueden deberse a un “posible efecto indirecto” originado por la infección de las plantas susceptibles al virus durante la realización del ensayo, lo que indirectamente puede modificar el comportamiento del pulgón durante la fase de evaluación. Sin embargo, el virus CABYV modificó indirectamente el comportamiento alimenticio de su vector a través de cambios en la planta infectada. Los pulgones tardaron menos tiempo en llegar al floema, realizaron un mayor número de pruebas floemáticas y permanecieron durante más tiempo en actividades floemáticas en plantas infectadas con CABYV. El comportamiento observado sobre las plantas infectadas con CABYV favorece la adquisición de virus persistentes, los cuales son adquiridos durante la alimentación sostenida en floema. El estudio de preferencia y asentamiento de A. gossypii mostró que los pulgones virulíferos prefieren asentarse en plantas no infectadas a corto y largo plazo de evaluación (2, 4 y 48 horas después de la liberación). Los ensayos de despegue y aterrizaje mostraron que los pulgones virulíferos que fueron liberados en las plantas de pepino infectadas con CABYV tuvieron una mayor propensión en migrar hacia las plantas no infectadas (3, 6, 24 y 48 horas después de la liberación) que aquellos que fueron sometidos al tratamiento contrario (planta no infectada hacia planta infectada con CABYV). Sin embargo, los pulgones no virulíferos no mostraron preferencia por plantas de pepino no infectadas o infectadas con CABYV en ninguno de los ensayos (preferencia o despegue) o periodos evaluados (corto y largo plazo). Los resultados indican que el virus CABYV es capaz de modificar indirectamente el comportamiento alimenticio de su vector a través de cambios en la planta infectada, favoreciendo su adquisición por su principal vector, A. gossypii. Una vez que los pulgones tienen capacidad de transmitir el virus (virulíferos) se produce un cambio en su comportamiento prefiriendo asentarse sobre plantas no infectadas optimizándose así la dispersión viral. El tercer objetivo de la Tesis, fue evaluar los efectos directos e indirectos del virus CABYV así como los efectos indirectos del virus CMV en la eficacia biológica del vector A. gossypii. Los resultados obtenidos en los ensayos realizados con el virus persistente CABYV indican que el virus parece no modificar directamente ni indirectamente la eficacia biológica del vector en plantas de pepino o algodón, no observándose diferencias estadísticas en ninguno de los parámetros poblacionales evaluados (tiempo de desarrollo, tasa intrínseca de crecimiento, tiempo generacional medio, tasa media de crecimiento relativo y ninfas totales). En cuanto a los ensayos realizados con el virus no persistente, CMV, los resultados muestran un efecto indirecto del virus sobre la biología del vector. Así resultó que tanto la tasa intrínseca de crecimiento natural (rm) como la tasa media de crecimiento relativo (RGR) fueron más altas para pulgones crecidos sobre plantas infectadas con CMV que sobre plantas no infectadas, favoreciendo la reproducción y crecimiento poblacional del vector sobre plantas infectadas con CMV. Los resultados obtenidos en la presente Tesis, ofrecen un ejemplo de como los virus de plantas pueden manipular directa e indirectamente a su vector, maximizando así su dispersión entre las plantas. Esos nuevos conocimientos generados tienen implicaciones importantes en la transmisión, dispersión y en la epidemiología de los virus y deben ser considerados para diseñar o ajustar los modelos de simulación existentes y patrones de dispersión que describen las epidemias de estos virus. ABSTRACT The main objective of this Thesis has been to understand the effect of the viral infection (direct-mediated by the presence of the virus in the vector and indirect mediated by the chemical and physical changes originated in the plant as a consequence of the viral infection) on the behaviour and biological efficacy of the vector Aphis gossypii Glover and its consequences in the epidemiology of two viral diseases, one with non-persistent transmission (Cucumber mosaic virus, CMV, Cucumovirus) and another with persistent transmission (Cucurbit aphid-borne yellows virus, CABYV, Polerovirus). The first objective of this Thesis was the study of the indirect effect of the nonpersistent virus CMV on the feeding behaviour and preference of the aphid A. gossypii in cucumber plants. The results of the alighting and settling behaviour studies showed that aphids exhibited no preference to migrate from CMV-infected to mock-inoculated plants at short time intervals (1, 10 and 30 min after release), but showed a clear shift in preference to migrate from CMV-infected to mock-inoculated plants 60 min after release. Our free-choice preference assays showed that A. gossypii alates preferred CMV-infected over mockinoculated plants at an early stage (30 min), but this behaviour was reverted at a later stage and aphids preferred to settle and reproduce on mock-inoculated plants. The electrical penetration graph (EPG) technique revealed a sharp change in aphid probing behaviour over time when exposed to CMV-infected plants. At the beginning (first 15 min) aphid vectors dramatically increased the number of short superficial probes and intracellular punctures when exposed to CMV-infected plants. At a later stage (second hour of recording) aphids diminished their feeding on CMV-infected plants as indicated by much less time spent in phloem salivation and ingestion (E1 and E2). This particular probing behaviour including an early increase in the number of short superficial probes and intracellular punctures followed by a phloem feeding deterrence is known to enhance the transmission efficiency of viruses transmitted in a NP manner. We conclude that CMV induces specific changes in a plant host that modify the alighting, settling and probing behaviour of its main vector A. gossypii, leading to optimum transmission and spread of the virus. The second objective of this work was to evaluate the effects that the persistently aphid transmitted Cucurbit aphid-borne yellows virus (CABYV) can induce directly and indirectly on the alighting, settling and probing behaviour activities of the cotton aphid A. gossypii. Only minor direct changes on aphid feeding behaviour was observed due to CABYV when viruliferous aphids fed on mock-inoculated plants. However, the feeding behaviour of non-viruliferous aphids was very different on CABYV-infected than on mockinoculated plants. Non-viruliferous aphids spent longer time feeding from the phloem when plants were infected by CABYV than on mock-inoculated plants, suggesting that CABYV indirectly manipulates aphid feeding behaviour through its shared host plant in order to favour viral acquisition. The vector alighting and settling preference was compared between nonviruliferous and viruliferous aphids. Viruliferous aphids showed a clear preference for mockinoculated over CABYV-infected plants at short and long time, while such behaviour was not observed for non-viruliferous aphids. Overall, our results indicate that CABYV induces changes in its host plant that modifies aphid feeding behaviour in a way that virus acquisition from infected plants is enhanced. Once the aphids become viruliferous they prefer to settle on healthy plants, leading to optimize the transmission and spread of the virus. The third objective was to evaluate the direct and indirect effects of CABYV and indirect effects of the CMV on the A. gossypii fitness. Obtained results for the persistent virus CABYV showed that the virus did not modify the vector fitness in cucumber or cotton plants. None of the evaluated variables was statistically significant (development time (d), intrinsic growth rate (rm), mean relative growth rate (RGR) and total number of nymphs). On the other hand, data obtained for the non-persistent virus (CMV) showed an indirect effect of the virus on the vector fitness. Thus, the rm and RGR were higher for aphids grown on CMV-infected plants compared to aphids grown on mock-inoculated plants. Overall, the obtained results are clear examples of how plant viruses could manipulate directly and indirectly vector behaviour to optimize its own dispersion. These results are important for a better understanding of transmission, dispersion and epidemiology of plant viruses transmitted by vectors. This information could be also considered to design or adjust simulation models and dispersion patterns that describe plant virus epidemics.

Variation in per capita interaction strength: Thresholds due to nonlinear dynamics and nonequilibrium conditions

I measured the strength of interaction between a marine herbivore and its growing resource over a realistic range of absolute and relative abundances. The herbivores (hermit crabs: Pagurus spp.) have slow and/or weak functional and numerical responses to epiphytic diatoms (Isthmia nervosa), which show logistic growth in the absence of consumers. By isolating this interaction in containers in the field, I mimicked many of the physical and biological variables characteristic of the intertidal while controlling the densities of focal species. The per capita effects of consumers on the population dynamics of their resource (i.e., interaction strength) were defined by using the relationship between hermit crab density and proportional change in the resource. When this relationship is fit by a Weibull function, a single parameter distinguishes constant interaction strength from one that varies as a function of density. Constant interaction strength causes the proportion of diatoms to fall linearly or proportionally as hermit crab density increases whereas per capita effects that increase with density cause an accelerating decline. Although many mathematical models of species interactions assume linear dynamics and invariant parameters, at least near equilibrium, the per capita effects of hermit crabs on diatoms varied substantially, apparently crossing a threshold from weak to strong when consumption exceeded resource production. This threshold separates a domain of coexistence from one of local extinction of the resource. Such thresholds may help explain trophic cascades, resource compensation, and context-dependent interaction strengths, while indicating a way to predict trophic effects, despite nonlinearities, as a function of vital rates.

Experimental evidence for a behavior-mediated trophic cascade in a terrestrial food chain

Predators of herbivorous animals can affect plant populations by altering herbivore density, behavior, or both. To test whether the indirect effect of predators on plants arises from density or behavioral responses in a herbivore population, we experimentally examined the dynamics of terrestrial food chains comprised of old field plants, leaf-chewing grasshoppers, and spider predators in Northeast Connecticut. To separate the effects of predators on herbivore density from the effects on herbivore behavior, we created two classes of spiders: (i) risk spiders that had their feeding mouth parts glued to render them incapable of killing prey and (ii) predator spiders that remained unmanipulated. We found that the effect of predators on plants resulted from predator-induced changes in herbivore behavior (shifts in activity time and diet selection) rather than from predator-induced changes in grasshopper density. Neither predator nor risk spiders had a significant effect on grasshopper density relative to a control. This demonstrates that the behavioral response of prey to predators can have a strong impact on the dynamics of terrestrial food chains. The results make a compelling case to examine behavioral as well as density effects in theoretical and empirical research on food chain dynamics.

Concerted biosynthesis of an insect elicitor of plant volatiles

A variety of agricultural plant species, including corn, respond to insect herbivore damage by releasing large quantities of volatile compounds and, as a result, become highly attractive to parasitic wasps that attack the herbivores. An elicitor of plant volatiles, N-(17-hydroxylinolenoyl)-l-glutamine, named volicitin and isolated from beet armyworm caterpillars, is a key component in plant recognition of damage from insect herbivory. Chemical analysis of the oral secretion from beet armyworms that have fed on 13C-labeled corn seedlings established that the fatty acid portion of volicitin is plant derived whereas the 17-hydroxylation reaction and the conjugation with glutamine are carried out by the caterpillar by using glutamine of insect origin. Ironically, these insect-catalyzed chemical modifications to linolenic acid are critical for the biological activity that triggers the release of plant volatiles, which in turn attract natural enemies of the caterpillar.

Benthic–pelagic links and rocky intertidal communities: Bottom-up effects on top-down control?

Insight into the dependence of benthic communities on biological and physical processes in nearshore pelagic environments, long considered a “black box,” has eluded ecologists. In rocky intertidal communities at Oregon coastal sites 80 km apart, differences in abundance of sessile invertebrates, herbivores, carnivores, and macrophytes in the low zone were not readily explained by local scale differences in hydrodynamic or physical conditions (wave forces, surge flow, or air temperature during low tide). Field experiments employing predator and herbivore manipulations and prey transplants suggested top-down (predation, grazing) processes varied positively with bottom-up processes (growth of filter-feeders, prey recruitment), but the basis for these differences was unknown. Shore-based sampling revealed that between-site differences were associated with nearshore oceanographic conditions, including phytoplankton concentration and productivity, particulates, and water temperature during upwelling. Further, samples taken at 19 sites along 380 km of coastline suggested that the differences documented between two sites reflect broader scale gradients of phytoplankton concentration. Among several alternative explanations, a coastal hydrodynamics hypothesis, reflecting mesoscale (tens to hundreds of kilometers) variation in the interaction between offshore currents and winds and continental shelf bathymetry, was inferred to be the primary underlying cause. Satellite imagery and offshore chlorophyll-a samples are consistent with the postulated mechanism. Our results suggest that benthic community dynamics can be coupled to pelagic ecosystems by both trophic and transport linkages.