EVALUACIÓN DE LA INTERACCIÓN ENTRE LAS ACTIVIDADES PRIORITARIAS DE PESCA Y CONSERVACIÓN EN EL SISTEMA SOCIOAMBIENTAL DEL GOLFO DE ULLOA. ESTUDIO DE CASO: Caretta caretta y Chelonia mydas (Linnaeus, 1758)

JEHIEL ZACIL RETANA ARELLANO (2023, [Tesis de maestría])

"El Golfo de Ulloa (GU) es un ecosistema de gran importancia socioeconómica y ecológica por su abundancia de recursos; se encuentra localizado en la costa occidental de Baja California Sur (BCS) bajo la influencia de la Corriente de California (CC). Debido a las artes de pesca empleadas en la zona, existe la interacción incidental con especies que no son el objetivo de la pesca, tal es el caso de las tortugas marinas, todas ellas sujetas a protección especial en la legislación nacional e internacional, sin embargo, a la fecha se desconoce una medición puntual de estas interacciones en el área; al respecto, en el presente trabajo se caracterizaron y dimensionaron las interacciones entre la actividad pesquera realizada con chinchorros y dos especies de tortugas marinas en la zona; para ello se consideró la información obtenida durante el censo pesquero de 2015 así como también la base de datos con información de avistamientos e interacciones de tortugas marinas con las actividades extractivas de la pesca realizada de junio 2015 a julio de 2016. Sobre la base de la información analizada, se registraron 5,661 chinchorros, de los cuales, el 95 % cumple con las medidas autorizadas en los permisos de pesca correspondientes. Por su parte, se registraron 458 avistamientos de tortugas marinas, de los cuales, el 56 % correspondió a tortuga amarilla y el resto a tortuga verde. Las interacciones de las tortugas con los sitios activos de pesca se categorizaron como: (1) viva sin enredo; (2) muerta sin enredo; (3) viva con enredo; y (4) muerta con enredo. Considerando ambas especies y estas categorías, para el periodo analizado, se observaron 85 registros, de los cuales, seis correspondieron a la categoría 1; cinco en la categoría 2; 42 en la categoría 3; y 32 en la categoría 4. Se determinó que la tortuga verde presentó mayor interacción (68.23 %) con respecto a la tortuga amarilla, con registros máximos en junio para ambas especies. Sobre estos registros, se creó un índice de interacción de artes de pesca y las tortugas marinas (IIAT), con el cual, se observó que el área de alto riesgo y daño dentro de la ZRP es muy reducida (<1 % del área total). Adicionalmente, a través de un análisis de probabilidad de Poisson se determinó que es considerablemente más probable (≈30 %) observar una tortuga viva y sin enredo que en cualesquiera de las otras tres categorías para las que se calculó una probabilidad máxima de observación de ≈12 % por cada cuadrante de 10 x 10 km..."

"The Gulf of Ulloa (GU) is an ecosystem of significant socioeconomic and ecological importance due to its abundance of resources. It is located on the western coast of Baja California Sur (BCS) and is influenced by the California Current (CC). Due to the fishing methods used in the area, there is bycatch with species that are not the target of fishing, such as sea turtles, all of which are subject to special protection under national and international legislation. However, there has been no specific measurement of these interactions in the area. In this study, the interactions between fishing activities using seine nets and two species of sea turtles in the area were characterized and quantified. The information obtained during the 2015 census and the database containing information on sea turtle sightings and interactions with fishing activities from June 2015 to July 2016 was considered. Based on the analyzed information, 5,661 seine nets were recorded, of which 95 % complied with the authorized measures in the corresponding fishing permits. Additionally, 458 sea turtle sightings were recorded, with 56 % corresponding to yellow turtles and the rest to green turtles. The interactions of turtles with active fishing sites were categorized as: (1) alive without entanglement; (2) dead without entanglement; (3) alive with entanglement; and (4) dead with entanglement. Considering both species and these categories, 85 records were observed during the analyzed period, of which six corresponded to category 1, five to category 2, 42 to category 3, and 32 to category 4. It was determined that the green turtle had a higher interaction rate (68.23 %) compared to the yellow turtle, with peak records in June for both species. Based on these records, an index of interaction between fishing gear and sea turtles (IIAT) was created. It was observed that the area of high risk and damage within the ZRP (Fishery Refuge Area) is very small (<1 % of the total area). Additionally, a Poisson probability analysis determined that it is considerably more likely (≈30 %) to observe an alive without entanglement turtle than in any of the other three categories, for which the maximum observation probability was ≈12 % for each 10 x 10 km quadrant..."

tortuga marina, captura incidental, pesca y conservación, refugio pesquero Sea turtle, bycatch, fishing and conservation, Fishery Refuge Area CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA CIENCIAS AGRARIAS PECES Y FAUNA SILVESTRE PROTECCIÓN DE LOS PECES PROTECCIÓN DE LOS PECES

PROPUESTA DE MANEJO DE LA PESQUERÍA EMERGENTE DE MERLUZA DEL PACÍFICO NORTE Merluccius productus EN EL GOLFO DE ULLOA, BAJA CALIFORNIA SUR

PABLO MORA ZAMACONA (2023, [Tesis de doctorado])

"La merluza del Pacífico Merluccius productus se distribuye desde Alaska hasta el sur de México, con una población particular descrita al sur de la península de Baja California conocida como merluza enana, de la que poco se sabe. Dicha población actualmente no es pescada comercialmente, por lo que representa un recurso con potencial de explotación. Las pesquerías potenciales y emergentes crean desafíos y oportunidades para los administradores pesqueros que necesitan tomar decisiones sobre cómo gestionar de forma sostenible una pesquería previa a su inicio. Este trabajo propone y analiza posibles medidas alternativas de gestión pesquera para esta potencial pesquería, bajo incertidumbre biológica y de mercado. Debido al desconocimiento de diversos aspectos de la biología del recurso primeramente se analizó el crecimiento individual del stock y posteriormente se realizó un análisis bioeconómico de la potencial pesquería.

Para el análisis del crecimiento individual se utilizó un total de 240 otolitos y datos de longitud patrón de 932 especímenes muestreados de mayo a diciembre de 2015. La formación anual de incrementos en los otolitos se verificó mediante la relación de incremento marginal y el análisis de borde. La edad se estimó a partir de recuentos de anillos en secciones sagitales de otolitos y el crecimiento se analizó mediante un enfoque de inferencia multimodelo. Se consideraron los modelos de crecimiento de von Bertalanffy (VBGM), VBGM generalizado, Gompertz, Logístico y Johnson, los cuales se ajustaron a conjuntos de datos de talla a la edad observados y retrocalculados agrupados por sexo. Según el criterio de información de Akaike, el VBGM generalizado fue el más apropiado para las hembras (L∞= 31.36 cm, k= 0.15 cm año-1), mientras que el VBGM proporcionó el mejor ajuste para los machos (L∞= 25.35 cm, k= 0.28 cm año-1).

El análisis bioeconómico de alternativas de manejo para una potencial pesquería de merluza enana indicó que una nueva pesquería de dicho stock podría ser biológicamente sostenible y económicamente rentable, bajo un conjunto de estrategias de gestión y reglas de control. Se recomienda un acceso limitado con bajo esfuerzo pesquero ya que resulta más redituable por barco y biológicamente precautorio, considerando la alta incertidumbre asociada con la explotación de una población virgen..."

"The Pacific hake Merluccius productus is distributed from Alaska to southern Mexico, with a particular population described south of the Baja California peninsula known as dwarf hake, about which little is known. This population is not currently commercially fished; hence it represents a resource with potential for exploitation. Potential and emerging fisheries create challenges and opportunities for fishery managers who need to make decisions about how to sustainably manage a fishery prior to its initiation. This work proposes and analyzes possible alternative fishery management measures for this potential fishery, under biological and market uncertainty. Due to the lack of knowledge of various aspects of the biology of the resource, the individual growth of the stock was first analyzed and subsequently a bioeconomic analysis of the potential fishery was carried out.

A total of 240 otoliths and standard-length data from 932 specimens sampled from May to December 2015 were used for the analysis of individual growth. The annual formation of otolith increments was verified using the marginal increment analysis and the edge analysis. Age was estimated from annuli counts in sagittal sections of otoliths and growth was analyzed using a multi-model inference approach. The von Bertalanffy growth models (VBGM), generalized VBGM, Gompertz, Logistic and Johnson growth models were considered, which were fitted to observed and back calculated length-at-age data sets grouped by sex. According to Akaike's information criterion, the generalized VBGM was the most appropriate for females (L∞= 31.36 cm, k= 0.15 cm year-1), while the VBGM provided the best fit for males (L∞= 25.35 cm, k= 0.28 cm year-1).

The bioeconomic analysis of management alternatives for a potential dwarf hake fishery indicated that a new fishery for said stock could be biologically sustainable and economically profitable, under a set of management strategies and control rules. Limited access with low fishing effort is recommended as it is more profitable by boat and biologically precautionary, considering the high uncertainty associated with the exploitation of an unfished stock. Despite the combination of high fishing costs and low prices, the fishery could still be profitable in the long term, although there is risk of overexploitation if high fishing effort is allowed..."

Merluza enana, stock no explotado, crecimiento individual, análisis bioeconómico, pesquería potencial Dwarf hake, unexploited stock, individual growth, bioeconomic analysis, potential fishery CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA CIENCIAS AGRARIAS PECES Y FAUNA SILVESTRE REGLAMENTACIÓN Y CONTROL REGLAMENTACIÓN Y CONTROL

Hyperiid amphipods from the Gulf of Ulloa and offshore region, Baja California: The possible role of the gelatinous zooplankton as a transport vector into the coastal shelf waters

Bertha Lavaniegos (2020, [Artículo])

Hyperiid amphipod species from the Gulf of Ulloa, Baja California, and the adjacent region (from the shelf break to 200 km offshore) were analyzed to evaluate diversity and abundances. This productive area supports small-scale commercial fisheries, including sand bass (Paralabrax nebulifer), California spiny lobster (Panulirus interruptus), abalones, clams, and others. Strong coastal upwelling events were observed during summer seasons of the period 2002-2008 between Punta Eugenia and Punta Abreojos. The upwelling plumes at Punta Abreojos are transported southward in slope waters bordering the coastal shelf of the Gulf of Ulloa, contributing to the separation of coastal and oceanic regions, and explain differences in amphipod diversity and abundances between both regions. In the offshore region, the most abundant species were Vibilia armata, Lestrigonus schizogeneios, Primno brevidens, and Eupronoe minuta, similar to previous findings in northern regions of Baja California and southern California. However, abundances of these species were lower (10-30 individuals/1000 m3), only reaching 20-50% of abundance levels reported off northern Baja California. In the coastal shelf of the Gulf of Ulloa, amphipods were virtually absent during 2002, 2003 and 2006. However, during 2004 and 2005, abundances of P. brevidens increased (54 and 20 ind/1000 m3, respectively). Moreover, during the late summer of 2007, abundances of L. schizogeneios, P. brevidens, Lycaea nasuta, Lycaea pulex, and Simorhynchotus antennarius increased considerably (261, 39, 31, 68, 416 ind/1000 m3, respectively), indicating occasional utilization of the coastal shelf by pelagic amphipods. Changes in gelatinous populations (medusae, siphonophores, ctenophores, doliolids, and salps) paralleled changes in hyperiid populations, with highest abundances in 2005-2008 in the coastal shelf. Significant correlations of 17 amphipod species with gelatinous taxa, which are often used as host organisms by hyperiid amphipods, suggest that gelatinous presence enhanced hyperiid abundance and promoted the progression of hyperiid amphipods onto the coastal shelf during parts of the 2002-2008 period. © 2020 Bertha E. Lavaniegos. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

abalone, Amphipoda, article, Baja California, clam, clinical article, Ctenophora, Eugenia, female, fishery, human, human experiment, male, medusa, nonhuman, Panulirus interruptus, plume, summer, zooplankton, Amphipoda, animal, California, ecosystem, CIENCIAS FÍSICO MATEMÁTICAS Y CIENCIAS DE LA TIERRA CIENCIAS DE LA TIERRA Y DEL ESPACIO OCEANOGRAFÍA OCEANOGRAFÍA

Rapid effects of marine reserves via larval dispersal

Richard Cudney Bueno (2009, [Artículo])

Marine reserves have been advocated worldwide as conservation and fishery management tools. It is argued that they can protect ecosystems and also benefit fisheries via density-dependent spillover of adults and enhanced larval dispersal into fishing areas. However, while evidence has shown that marine reserves can meet conservation targets, their effects on fisheries are less understood. In particular, the basic question of if and over what temporal and spatial scales reserves can benefit fished populations via larval dispersal remains unanswered. We tested predictions of a larval transport model for a marine reserve network in the Gulf of California, Mexico, via field oceanography and repeated density counts of recently settled juvenile commercial mollusks before and after reserve establishment. We show that local retention of larvae within a reserve network can take place with enhanced, but spatially-explicit, recruitment to local fisheries. Enhancement occurred rapidly (2 yrs), with up to a three-fold increase in density of juveniles found in fished areas at the downstream edge of the reserve network, but other fishing areas within the network were unaffected. These findings were consistent with our model predictions. Our findings underscore the potential benefits of protecting larval sources and show that enhancement in recruitment can be manifested rapidly. However, benefits can be markedly variable within a local seascape. Hence, effects of marine reserve networks, positive or negative, may be overlooked when only focusing on overall responses and not considering finer spatially-explicit responses within a reserve network and its adjacent fishing grounds. Our results therefore call for future research on marine reserves that addresses this variability in order to help frame appropriate scenarios for the spatial management scales of interest. © 2009 Cudney-Bueno et al.

article, environmental monitoring, fishery, larva, marine environment, marine species, Mexico, mollusc, nonhuman, oceanography, prediction, animal, biology, environmental protection, food industry, geography, growth, development and aging, larva, met CIENCIAS FÍSICO MATEMÁTICAS Y CIENCIAS DE LA TIERRA CIENCIAS DE LA TIERRA Y DEL ESPACIO OCEANOGRAFÍA OCEANOGRAFÍA