This document summarizes evidence of "fishing down" coastal food webs in the Gulf of California over the past 30 years. Fisheries have shifted from catching large, long-lived predatory fish like sharks and groupers to smaller, short-lived species lower on the food chain. The maximum size of fish in catches has decreased 45 cm in just 20 years. While some total catches have increased, catch-per-unit-effort has declined for most species groups after 1980 due to a dramatic increase in fishing effort, particularly gillnets. This intensive fishing has not only impacted target species populations but also caused community-wide changes in fish assemblages. Coastal fisheries in the Gulf of California appear unsustainable
Assessing the Sardine Multispecies Fishery of the Gulf of CaliforniaAI Publications
In the fishery of small pelagics at the Gulf of California, the South American pilchard Sardinops sagax (Jenyns, 1842) is the main target. In the years when the abundance of this species is poor and its catches are low, the fishery is diverted into other species such as the Pacific thread herring (Opisthonema libertate (Günter)), and the Pacific anchoveta (Cetengraulis mysticetus (Günter)). Since the 90s, the anchoveta (Engraulis mordax) appeared in the catch records and later on, other species of lesser importance appeared such as the mackerel (Scomberomorus sierra (Jordan & Starks)), the red eye-round herring (Etrumeus teres (DeKay)) and the shortjaw leatherjacket (Oligoplites refulgens Gilbert & Starks). When this fishery was analyzed by species, it was found that, although it is a very profitable activity, there is not a management strategy, leading it to the risk of overexploitation, as the maximum yield level of the target species (the South American pilchard), corresponds to levels of fishing mortality in which the other species of the group are depleted. It was found that there is a substitution of the dominant species over time, because at the beginning of this century the South American pilchard was the target species whilst in 2014 it was the Pacific thread herring. Therefore, this work is focused to the analysis of each species of the fishery, intending to derive recommendations for its management within a sustainable framework.45
Study of the diet of the common cuttlefish Sepia officinalis of the exclusive...Innspub Net
The diet of the common cuttlefish Sepia officinalis was studied from samples collected in the coastal waters of
Côte d'Ivoire, for 12 months. According to the qualitative analysis of the stomach contents of all these animals,
fish and crustaceans represented respectively, 50.23% and 38.65% of the examined stomachs are the most
regularly consumed prey. The monthly evolution of the vacuity coefficient shows that this index varies according
to the sexual cycle. Juveniles feed primarily on crustaceans. The stomachs bowl of the adults contains fish but
also crustaceans and cephalopods whose frequencies are relatively significant, which would let think that Sepia
officinalis changes trophic behavior in connection with the evolution of its physiological state and that at the
adult state, the animal acquires performances which enable him to apprehend the preys with fast movements in
fact the fish.
Assessing the Sardine Multispecies Fishery of the Gulf of CaliforniaAI Publications
In the fishery of small pelagics at the Gulf of California, the South American pilchard Sardinops sagax (Jenyns, 1842) is the main target. In the years when the abundance of this species is poor and its catches are low, the fishery is diverted into other species such as the Pacific thread herring (Opisthonema libertate (Günter)), and the Pacific anchoveta (Cetengraulis mysticetus (Günter)). Since the 90s, the anchoveta (Engraulis mordax) appeared in the catch records and later on, other species of lesser importance appeared such as the mackerel (Scomberomorus sierra (Jordan & Starks)), the red eye-round herring (Etrumeus teres (DeKay)) and the shortjaw leatherjacket (Oligoplites refulgens Gilbert & Starks). When this fishery was analyzed by species, it was found that, although it is a very profitable activity, there is not a management strategy, leading it to the risk of overexploitation, as the maximum yield level of the target species (the South American pilchard), corresponds to levels of fishing mortality in which the other species of the group are depleted. It was found that there is a substitution of the dominant species over time, because at the beginning of this century the South American pilchard was the target species whilst in 2014 it was the Pacific thread herring. Therefore, this work is focused to the analysis of each species of the fishery, intending to derive recommendations for its management within a sustainable framework.45
Study of the diet of the common cuttlefish Sepia officinalis of the exclusive...Innspub Net
The diet of the common cuttlefish Sepia officinalis was studied from samples collected in the coastal waters of
Côte d'Ivoire, for 12 months. According to the qualitative analysis of the stomach contents of all these animals,
fish and crustaceans represented respectively, 50.23% and 38.65% of the examined stomachs are the most
regularly consumed prey. The monthly evolution of the vacuity coefficient shows that this index varies according
to the sexual cycle. Juveniles feed primarily on crustaceans. The stomachs bowl of the adults contains fish but
also crustaceans and cephalopods whose frequencies are relatively significant, which would let think that Sepia
officinalis changes trophic behavior in connection with the evolution of its physiological state and that at the
adult state, the animal acquires performances which enable him to apprehend the preys with fast movements in
fact the fish.
ABSTRACT- Lizardfishes are commercially important group of species contributing to the fishery in the Indian EEZ. Information on predation, prey-predator relationship and their assessments in respect of Saurida tumbil and Saurida undosquamis have been derived in this study. A total number of 1630 specimens of S. tumbil and 926 of S. undosquamis were used for stomach content analysis. The specimens of S. tumbil examined in the study ranged between 13.0-53.0 cm (TL) and of S. undosquamis 13.0-41.0 cm. Qualitative and quantitative analysis revealed that the species S. tumbil prefers food in order of abundance as a teleost fishes (41%), molluscs (9.16%), shrimps (3.64%), crabs (1.41%) and squilla (0.37%) and S. undosquamis prefers teleost fishes (49%), molluscs (11%) and shrimps (3%). In S. tumbil, the highest feeding intensity observed in July (50%) and in S. undosquamis, in October (41%) and the lowest intensity recorded in the month of June for both the species. Monthly Gonado Somatic Index (GSI) shown that the highest feeding was observed in January (10.55%) and July (10.76%) for S. tumbil whereas, in case of S. undosquamis, the GSI was highest in August (16.58% for males and 17.80% for females). The pieces of sand granules, detritus and benthic organisms in the stomachs of the species indicating the benthic nature at the sea bottom in the search of food. Occurrence of juvenile lizardfishes in gut contents of both the species indicates that the lizardfishes are cannibalistic in nature.
Key-words- Lizardfish, feeding intensity, Gonado Somatic Index (GSI), Cannibalism
Prospectives and Problems of Conservation, Development and Management of Clam...ijtsrd
Bhatye estuary, Ratnagiri is known for its mussel and clam fishery. Clam fishery is primarily supported by Meretrix meretrix, Katelysia opima and Paphia laterisulea. The clam fishery lasts for about 8 – 10 months. During lean period of open sea fishery, it provides protein rich food and livelihood to local population... Its shells are utilized as raw material in lime and cement cottage industries. Considering its food and economic value they are over exploited. In the present study, economic and food value of clams, clam fishery, management and conservation aspects are discussed. Sanjay Kumbhar "Prospectives and Problems of Conservation, Development and Management of Clam Resource in the Bhatye Estuary Ratnagiri, Maharashtra, India" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-3 , April 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30593.pdf Paper Url :https://www.ijtsrd.com/biological-science/zoology/30593/prospectives-and-problems-of-conservation-development-and-management-of-clam-resource-in-the-bhatye-estuary-ratnagiri-maharashtra-india/sanjay-kumbhar
Introduction for NOAA lesson by Susan Kaiser, TAS 2012: One Fish, Two Fish skaiser4800
This Power Point introduces the work of marine scientists working for FWC and NOAA as they study fish migration patterns and population off the Florida Keys near the Dry Tortugas. The original presentation was written by Danielle Morley and edited by Susan Kaiser Teacher at Sea, 2012 for use with the lesson she developed called One Fish, Two Fish. All of the resources are available at the NOAA TAS website.
Use of Fishing Resources by Women in the Mamanguape River Estuary, Paraíba st...Priscila Trindade
We evaluated the appropriation and use of fishing resources by women residing near the Mamanguape River
Estuary (MRE), Paraíba state, Brazil. Were used combinations of qualitative (interviews and direct observations)
and quantitative methods (use value and corrected principal use concordance). Thirty women were interviewed
and reported the use of 41 species (30 fish, 8 crustaceans, and 3 mollusks), mainly for local consumption and
sale. The species with the highest use value were Genidens genidens (0.7), Callinectes exasperatus (0.73)
and Anomalocardia brasiliana (0.46). The diversity of resources exploited demonstrates the importance of
the mangrove ecosystem to MRE families, and the data gathered can serve as a basis for formulating public
policies to promote the equal participation of women in fishing and environmental conservation.
ABSTRACT- Order siluriformes, Bagridae family of four number of catfish species provides information on the diets of
Mystus bleekeri, Mystus cavasius, Mystus tengara, Mystus vittatus in Lower Manair reservoir. The total of 1021 fish
species examined and their stomach content was analyzed. The frequency of occurrence and numerical methods were
employed in this study. In the numerical analysis, crustaceans and insect parts (85.91%) constituted the most important
diet of Mystus bleekeri followed by fish remains (78.40%), plant materials (69.01%), algae/ protozoan (64.79%), molluscs
(63.38%), detritus (56.81%) and sand grains (33.80%). The number of food items were enumerated for the crustaceans
and insect parts in Mystus bleekeri have been contained the maximum percentage (34.84%) of the content under
frequency of occurrence method followed by algae and protozoan with 20.76%, Molluscs with 18.37%, plant materials
with 15.60% and sand grains with 10.44%. The result of the analysis showed that Mystus cavasius, Mystus tengara,
Mystus vittatus fed on similar food items. These were mainly crustaceans, molluscans, fish remains and macrophytes.
Other food items include algae, detritus, sand grains. These four species are omnivorous and occupy the same ecological
niche.
Key-words- Cat fish, Food and feeding, Frequency, Numerical method
Evaluation of the oyster farming potential of the Cintra bay (southern Morocco)Origins publication
The bay of Cintra is a marine ecosystem located in the southern Moroccan Atlantic known for its
biological richness and therefore for its high fishery productivity. This bay was chosen as a new destination for the
development of aquaculture in the southern regions of Morocco. To highlight its potential in terms of oyster
farming, a first rearing trial of triploid cupped oysters (Crassostrea gigas) as well as parallel monitoring of the
phytoplankton population and ecological parameters were undertaken. The results obtained showed that the oysters
adapt well to the conditions of the new environment where mortality was negligible, or even absent after a month
of launching. In terms of biological performance, the growth of individuals is continuous during the annual cycle
and after eight months the weight could reach 30.5 g which is a minimum weight for marketing. The AFNOR and
Lawrence and Scott indices showed a good physiological state and a better commercial quality of the oysters. The
filling rate of these oysters, with an average weight of 39.7g when lifting, is very high according to the Lawrence and
Scott index (126.3) and the average AFNOR index (around 21.8) rank them in the “Special” category.
ABSTRACT- Lizardfishes are commercially important group of species contributing to the fishery in the Indian EEZ. Information on predation, prey-predator relationship and their assessments in respect of Saurida tumbil and Saurida undosquamis have been derived in this study. A total number of 1630 specimens of S. tumbil and 926 of S. undosquamis were used for stomach content analysis. The specimens of S. tumbil examined in the study ranged between 13.0-53.0 cm (TL) and of S. undosquamis 13.0-41.0 cm. Qualitative and quantitative analysis revealed that the species S. tumbil prefers food in order of abundance as a teleost fishes (41%), molluscs (9.16%), shrimps (3.64%), crabs (1.41%) and squilla (0.37%) and S. undosquamis prefers teleost fishes (49%), molluscs (11%) and shrimps (3%). In S. tumbil, the highest feeding intensity observed in July (50%) and in S. undosquamis, in October (41%) and the lowest intensity recorded in the month of June for both the species. Monthly Gonado Somatic Index (GSI) shown that the highest feeding was observed in January (10.55%) and July (10.76%) for S. tumbil whereas, in case of S. undosquamis, the GSI was highest in August (16.58% for males and 17.80% for females). The pieces of sand granules, detritus and benthic organisms in the stomachs of the species indicating the benthic nature at the sea bottom in the search of food. Occurrence of juvenile lizardfishes in gut contents of both the species indicates that the lizardfishes are cannibalistic in nature.
Key-words- Lizardfish, feeding intensity, Gonado Somatic Index (GSI), Cannibalism
Prospectives and Problems of Conservation, Development and Management of Clam...ijtsrd
Bhatye estuary, Ratnagiri is known for its mussel and clam fishery. Clam fishery is primarily supported by Meretrix meretrix, Katelysia opima and Paphia laterisulea. The clam fishery lasts for about 8 – 10 months. During lean period of open sea fishery, it provides protein rich food and livelihood to local population... Its shells are utilized as raw material in lime and cement cottage industries. Considering its food and economic value they are over exploited. In the present study, economic and food value of clams, clam fishery, management and conservation aspects are discussed. Sanjay Kumbhar "Prospectives and Problems of Conservation, Development and Management of Clam Resource in the Bhatye Estuary Ratnagiri, Maharashtra, India" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-3 , April 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30593.pdf Paper Url :https://www.ijtsrd.com/biological-science/zoology/30593/prospectives-and-problems-of-conservation-development-and-management-of-clam-resource-in-the-bhatye-estuary-ratnagiri-maharashtra-india/sanjay-kumbhar
Introduction for NOAA lesson by Susan Kaiser, TAS 2012: One Fish, Two Fish skaiser4800
This Power Point introduces the work of marine scientists working for FWC and NOAA as they study fish migration patterns and population off the Florida Keys near the Dry Tortugas. The original presentation was written by Danielle Morley and edited by Susan Kaiser Teacher at Sea, 2012 for use with the lesson she developed called One Fish, Two Fish. All of the resources are available at the NOAA TAS website.
Use of Fishing Resources by Women in the Mamanguape River Estuary, Paraíba st...Priscila Trindade
We evaluated the appropriation and use of fishing resources by women residing near the Mamanguape River
Estuary (MRE), Paraíba state, Brazil. Were used combinations of qualitative (interviews and direct observations)
and quantitative methods (use value and corrected principal use concordance). Thirty women were interviewed
and reported the use of 41 species (30 fish, 8 crustaceans, and 3 mollusks), mainly for local consumption and
sale. The species with the highest use value were Genidens genidens (0.7), Callinectes exasperatus (0.73)
and Anomalocardia brasiliana (0.46). The diversity of resources exploited demonstrates the importance of
the mangrove ecosystem to MRE families, and the data gathered can serve as a basis for formulating public
policies to promote the equal participation of women in fishing and environmental conservation.
ABSTRACT- Order siluriformes, Bagridae family of four number of catfish species provides information on the diets of
Mystus bleekeri, Mystus cavasius, Mystus tengara, Mystus vittatus in Lower Manair reservoir. The total of 1021 fish
species examined and their stomach content was analyzed. The frequency of occurrence and numerical methods were
employed in this study. In the numerical analysis, crustaceans and insect parts (85.91%) constituted the most important
diet of Mystus bleekeri followed by fish remains (78.40%), plant materials (69.01%), algae/ protozoan (64.79%), molluscs
(63.38%), detritus (56.81%) and sand grains (33.80%). The number of food items were enumerated for the crustaceans
and insect parts in Mystus bleekeri have been contained the maximum percentage (34.84%) of the content under
frequency of occurrence method followed by algae and protozoan with 20.76%, Molluscs with 18.37%, plant materials
with 15.60% and sand grains with 10.44%. The result of the analysis showed that Mystus cavasius, Mystus tengara,
Mystus vittatus fed on similar food items. These were mainly crustaceans, molluscans, fish remains and macrophytes.
Other food items include algae, detritus, sand grains. These four species are omnivorous and occupy the same ecological
niche.
Key-words- Cat fish, Food and feeding, Frequency, Numerical method
Evaluation of the oyster farming potential of the Cintra bay (southern Morocco)Origins publication
The bay of Cintra is a marine ecosystem located in the southern Moroccan Atlantic known for its
biological richness and therefore for its high fishery productivity. This bay was chosen as a new destination for the
development of aquaculture in the southern regions of Morocco. To highlight its potential in terms of oyster
farming, a first rearing trial of triploid cupped oysters (Crassostrea gigas) as well as parallel monitoring of the
phytoplankton population and ecological parameters were undertaken. The results obtained showed that the oysters
adapt well to the conditions of the new environment where mortality was negligible, or even absent after a month
of launching. In terms of biological performance, the growth of individuals is continuous during the annual cycle
and after eight months the weight could reach 30.5 g which is a minimum weight for marketing. The AFNOR and
Lawrence and Scott indices showed a good physiological state and a better commercial quality of the oysters. The
filling rate of these oysters, with an average weight of 39.7g when lifting, is very high according to the Lawrence and
Scott index (126.3) and the average AFNOR index (around 21.8) rank them in the “Special” category.
With the release of SQL Server 2014, there are some features available that you can utilise to help improve the performance in your SQL Server environments.
In this session Warwick will give you a high level introduction into the following 6 features that you can look at implementing and utilising in your environment to help with you over performance:
The Buffer Pool Extension
Resource Governor for IO
InMemory OLTP
InMemory DW
Managed Lock Priority
Single Partition Online Index Rebuild
Following on from a previous presentation Warwick has delivered on AlwaysOn Availability Groups, Warwick will introduce you to how you can include Replication, Change Data Capture, Change Tracking & Transparent Data Encryption into your AlwaysOn Environment.
Database & Backup compression was introduced gradually into SQL Server starting from SQL Server 2005 SP2. In this presentation Warwick takes you through the history of compression in SQL Server, the different version capabilities, taking you through how you can enable the various compression types and rounds out with introducing the compression estimation tool that is available on codeplex.
With the release of SQL Server 2012 the landscape changed with your ability to provide High Availability and/or Disaster Recoverability.
In this presentation Warwick has a look at some existing technologies that you may be already using in your environment to meet your High Availability or Disaster Recoverability requirements, He then introduces you to AlwaysOn Availability Groups looking at the technologies that make up the new technology before looking at how you can manage your environment.
Warwick will round out the presentation with a demo on how you can configure / build an AlwaysOn environment
NOAA scientists Jeffrey Polovina and Phoebe Woodworth-Jefcoats paper, "Fisher-Induced Changes in the Subtropical Pacific Pelagic Ecosystem Size Structure: Observations and Theory," was published in April 2013.
Common dab (Limanda limanda) fisheries biology in the Northumberland coast (N...Paschalis Papadamakis
A possible MLS restriction was proposed for common dab (Limanda limanda) by determining age at length, and estimating growth parameters and length at first maturity. Individuals were collected in the Northumberland coastal waters, within the Northumberland Inshore Fisheries and Conservation Authority (NIFCA) area of jurisdiction (<6 nm offshore) by using three different fishing gears including demersal otter trawl, beam trawl and trammel nets. Otoliths were extracted for age determination and growth was described by applying the standard form of the von Bertalanffy growth equation to the mean lengths at age.
Catch Per Unit Effort (CPUE) of Bivalves in Northwestern Bohol, PhilippinesAI Publications
Catch Per Unit Effort (CPUE) is a measure of status of marine resource in a given area. In this study, bivalve fishery information was gathered using the self-structured questionnaire. There were 61 respondents who were the registered fishermen of Calape, Tubigon and Clarin. Among the three towns it was Clarin where highest mean CPUE was observed with 1.2kg/hr/man. This was followed by Calape with 0.8kg/hr/man and lowest mean CPUE was recorded in Tubigon with 0.6kg/hr/man. High CPUE value means that there are still enough bivalve resources in the area and lowest CPUE means that these resources are endangered. Considering that, the result of this study showed that there is a need to regulate the collection of bivalves with lower wild stocks to avoid loss of these natural resources.
(E5) Exercise #5: Gone Fishing
Goals
analyze annual fish landing, mortality, and biomass data;
explain what caused the collapse of groundfish populations in New
England;
define the terms overfishing and overfished;
understand how MPAs can be effective management tools for
preventing and reviving overfished populations;
and examine your role as a consumer in aiding the sustainability of fish
in our oceans.
Background
For as long as people have lived near water, people have fished. Sadly,
in many instances, the history of fishing is paralleled by a history of
overfishing. According to the 2006 Report of Status of U.S. Fisheries,
20% of U.S. fish stocks with known overfishing status are subject to
overfishing and 25% of stocks with known overfished status are
considered to be overfished. An additional four stocks currently
classified as not overfished are approaching overfished status.
Contributing factors to the current level of overfishing include:
technological advances that have made large-scale fishing easier;
too many fishing boats on the water;
international partnerships that allow foreign fleets to overfish in the waters of developing countries;
illegal fishing that violates fishing laws or agreements;
large amounts of bycatch of juvenile fish and non-target species; and
the shortcomings of fisheries conservation and management efforts.
The impacts of declining fish catches are being painfully felt by many coastal fishing communities around the globe.
Jobs are lost and food is scarce. Impacts are also felt in the oceans as other marine species are left with fewer fish to
eat. Overfishing affects the entire marine food web. But how do know when overfishing is occurring or when a
stock is overfished? More importantly, can these conditions be reversed?
Part 1: Overfishing in Georges Bank
Georges Bank is an underwater bank situated along the eastern edge of the Gulf of Maine between Cape Cod and
Nova Scotia. This region is one of the most biologically productive marine areas on the eastern seaboard,
historically accounting for a large percentage of New England's commercial fish landings. The Georges Bank fishery
is particularly well-known for its groundfish—species such as cod, haddock, and flounder that feed near the
bottom of the ocean.
Look at the graph on the next page of trends in Georges Bank haddock catch and mortality from 1969 through
2004.
The histogram shows the annual haddock landing—the amount of fish that are caught and kept to sell.
The red line shows the fishing mortality rate, F—the rate at which fish are removed from a population due
to fishing (as opposed to removals due to natural causes such as disease or predation). F can also be
thought of as the percentage of a population that die in one year due to fishing.
Map of the Gulf of Maine; Georges Bank is the light blue
region in the bottom center of the image. Image courtesy
of NOAA ...
Similar to fishing down gulf of california coastal foodwebs (Sala et al, 2004) (17)
fishing down gulf of california coastal foodwebs (Sala et al, 2004)
1. fisheriesmanagement
feature
Introduction
Fisheries catches worldwide have gradually shifted
from long-lived, high-trophic level species to short-
lived, low-trophic level species in what has been
called “fishing down marine food webs” (Pauly et al.
1998a; Baum et al. 2003; Myers and Worm 2003;
Worm et al. 2003). This pattern is consistent among
marine and freshwater ecosystems at both regional
and local scales (Pauly et al. 1998a, 1998b, 2001). The
consequences of fishing down food webs extend
beyond the direct effects on the target species because
the removal of large predators can cause changes
affecting entire ecosystems (Estes et al. 1998; Jackson
et al. 2001). In Mexico, 82% of the fisheries fully
exploit or over-exploit their target species (Hernandez
and Kempton 2003), but there are no published anal-
yses of fisheries shifts and their ecosystem effects. Here
we present evidence of fishing down marine food webs
in the Gulf of California, a tropical marine biodiver-
sity hotspot (Roberts et al. 2002), and address the
need for rigorous fisheries management in the region.
In spite of its low human population density, the
Gulf of California is subjected to intense fishing.
Presently, six species of marine fishes (Serranidae and
Sciaenidae) are threatened or at risk of extinction in
the Gulf of California (Musick et al. 2000). Since no
published analyses of the ecosystem impacts of coastal
fishing in the Gulf of California exist, we describe
changes over time in fish catches and mean trophic
level of the coastal fishery in the southern Gulf of
California. In addition, we attempted to determine the
changes in the structure of coastal fish assemblages
associated with documented fishing pressure, and
changes in the spatial distribution of the artisanal fleet.
Baja California Sur Fisheries
We studied the coastal artisanal fishery in Baja
California Sur. This fishery operates from a large town
(La Paz, 154,314 inhabitants) and several small fish-
ing villages ranging from 13 to 177 people (INEGI
2002). The total number of local commercial fishers in
the study region is 10,600 (SEMARNAP, 1990–2000),
although these shores are also used by hundreds of fish-
ers based on mainland Mexico, from Sonora to as far
south as Chiapas. The fishery targets coastal fishes
belonging to 25 families
(Table 1). The most
commonly used fishing
gear is a motored fiber-
glass skiff with hand
lines and gillnets.
Fisheries in Baja
California Sur showed
a general pattern of
increasing catch since
1950 but decreasing
catch-per-unit-effort
(CPUE) after 1980
(Figure 1, Secretaría de
Marina 1950–1960;
Secretaría de Pesca
1970–1980; Ramirez
1988; SEMARNAP
1990–2000). The only
exception of CPUE
decrease after 1980
was for a multi-species
Fishing down coastal food webs in
the Gulf of California
We used information from interviews with fishers, fisheries statistics, and field surveys to doc-
ument changes in fisheries and fish assemblages in shallow coastal habitats in the Gulf of
California, Mexico. Coastal food webs in the Gulf of California have been “fished down” dur-
ing the last 30 years—fisheries shifted from large, long-lived species belonging to high
trophic levels to small short-lived species from lower trophic levels. In addition, the maximum
individual length of the landings has decreased about 45 cm in only 20 years. Although some
catches are stagnant or still increasing for some species groups, catch-per-unit-effort declined
for most species groups after 1980. These declines were associated to a dramatic increase in
fishing effort in the region in the late 1970s–early 1980s, mostly in the number of gillnets.
Fishing not only impacted target species, but also caused community-wide changes. These
results suggest that coastal fisheries in the Gulf of California are unsustainable and their
management needs to be reevaluated with sound regulatory measures to prevent further
degradation of coastal food webs, and the concurrent inefficiency of artisanal fishing.
March 2004 | www.fisheries.org | Fisheries 19
ABSTRACT
Enric Sala
Octavio Aburto-Oropeza
Miriam Reza
Gustavo Paredes
Luis G. López-Lemus
Sala is associate director, Center for Marine
Biodiversity and Conservation, and assistant
professor, Scripps Institution of Oceanography, La
Jolla, CA. He can be reached at esala@ucsd.edu.
Aburto-Oropeza is a researcher, Universidad
Autónoma de Baja California Sur (UABCS), La Paz,
Baja California Sur, Mexico. Reza is conservation
scientist, Gulf of California Program-World Wildlife
Fund, Hermosillo, Sonora, Mexico. Paredes is a
graduate student, Scripps Institution of
Oceanography, La Jolla, California. López-Lemus is
adjunct professor at UABCS, La Paz, Baja California
Sur, Mexico.
BONY FISHES SHARKS RAYS
Serranidae Alopiidae Rhinobatidae
Lutjanidae Carcharhinidae Mobulidae
Carangidae Lamnidae Myliobatidae
Haemulidae Echinorhinidae Dasyatididae
Balistidae Squalidae
Scaridae Heterodontidae
Labridae Ginglymostomatidae
Mullidae Odontaspidae
Kyphosidae Scyliorhinidae
Malacanthidae Triakidae
Sphyrnidae
Table 1. Major fish
families targeted by
the artisanal fishery
in the southern Gulf
of California.
2. fisheriesmanagement
feature
20 Fisheries | www.fisheries.org | vol 29 no 3
category of medium- and small-sized groupers (Figure 1:
“other groupers”). The catches of the goliath grouper
(Epinephelus itajara) and snappers (except red snapper) also
showed declines in catch after 1980. Because CPUE declined
over time, the fluctuations and increase of catch in multi-
species groups may be due to the shift in target species over
time (see Results). These changes were associated with a
striking increase in the number of motored fishing boats and
gillnets in the region since 1980 (Figure 2) (Secretaría de
Marina 1950–1960; Secretaría de Pesca 1970–1980;
SEMARNAP 1990–2000). This pattern is similar to that of
all Mexican fisheries—in the late 1970s national policies
induced a significant migration of unemployed field workers
towards coastal states, then landings peaked in 1981, and
catches declined afterwards in spite of a huge increase in
fishing effort (Hernandez and Kempton 2003).
Methods
Because the catch is pooled into coarse taxonomic groups
in the Gulf of California, fisheries statistics do not allow cal-
culation of the mean trophic level (Pauly et al. 2000). Catch
Sharks include: 37 species from 11 families (Table
1) caught in nearshore and offshore fisheries.
Jacks: green jack (Caranx caballus),
Pacific crevalle jack (C. caninus),
bigeye crevalle jack (C. sexfasciatus),
rainbow runner (Elagatis bipinnulata),
Pacific moonfish (Selene peruviana), and
gafftopsail pompano (Trachinotus rhodopus)
Red snapper: Lutjanus peru.
Other snappers include:
yellow snapper (Lutjanus argentiventris),
dog snapper (L. novemfasciatus),
mullet snapper (L. aratus),
spotted snapper (L. guttatus),
colorado snapper (L. colorado), and
barred pargo (Hoplopagrus guntheri).
Goliath grouper: Epinephelus itajara.
Other groupers include:
leopard grouper (Mycteroperca rosacea),
spotted sandbass (Paralabrax maculatofasciatus),
Panama graysby (Epinephelus panamensis),
flag cabrilla (E. labriformis), and
Pacific creolefish (Paranthias colonus).
Figure 1. Annual fish catch (solid circles) and catch
per unit effort (CPUE; metric tons/boat) (open
squares) in the southern Gulf of California.
3. data sets for pelagic species such as dolphinfish (Coryphaena hip-
purus) and billfish (Istiophoridae), exclusively reserved for the
sport fishery, are misreported (Ramirez 1988). Furthermore,
because not all fishers belong to organized fishing cooperatives,
their catch is under reported. Here we turned traditional ecologi-
cal knowledge obtained from interviews with fishers into
quantitative information to assess fishing down and spatial effort
allocation.
To estimate the relative contribution of fish species to the
catch we interviewed 63 fishers belonging to 4 fishing villages
located in the southern Gulf, between Cabo Pulmo and San Jose
Island (El Pardito, El Sargento, La Ribera, Cabo Pulmo). All fish-
ers on these villages were commercial fishers, and sold their catch
in the town of La Paz. We selected the most knowledgeable fish-
ers on the basis of previous interviews. Fishers ranged from 25 to
67 years old, and they provided data only for the time periods
when they were active. Interviews with individual fishers were
conducted over a period of one year. Fishers were asked about the
relative importance of each species in the catch in the 1970s,
1980s, 1990s, and 2000. We used a categorical index of fishing
importance from 0 to 5, where 0 means that the species was absent
from the catch, and 5 that it was the most important (by weight).
We then estimated the changes over time in the mean trophic
level of the catch (Pauly et al. 1998a). Mean trophic level in
marine ecosystems ranges from 1 (primary producers) to 5 (top
predators, e.g., killer whale, humans, Pauly et al. 2000). We
obtained the maximum reported size and trophic level of the
species in this study from Fishbase (Froese and Pauly 2002). We
estimated mean trophic level (
__
TLi) for time period i by multiply-
ing the fishing importance index (I, see above) times the trophic
level of the individual species j, then taking a weighted mean
(modified from Pauly et al. 1998):
⌺⌺ TLjIij__
TLi = __________
⌺⌺Iij
When fishers could not provide information for individual
species within a group, we used the average trophic level for the
species in that group. We also estimated the mean maximum size
of the catch as the summation of the product of the maximum
length of each species times its relative contribu-
tion to the total catch.
To assess the temporal shifts in the spatial dis-
tribution of the artisanal fleet we interviewed
fishers from the fishing camp of El Pardito about
the location of fishing sites and their use over time.
For every fishing site used since 1970 we estimated
a number of fishing days per year. We then entered
the location and use of every fishing site for every
time period into a geographic information system
(ESRI Arc View 3.2a). Maps of fishing intensity
were obtained interpolating the data on a matrix of
72 points (on a 1:150,000 scale map).
The first effects of fishing are a reduction in the
abundance and average size of target species
(Dayton et al. 2002). To determine the impacts of
the fishery on the size structure of selected target
species we used data obtained during visual censuses
conducted from 1998 to 2001 in 21 rocky reefs
between La Paz and Loreto (Sala et al. 2002). Fish
censuses included 140 non-cryptic species. These reefs could be
ranked along a gradient in fishing pressure. Fishing pressure was
quantified as density of fishing boats (Haro et al. 2001; Sala et al.
2002). Coastal fishing boats carry 3–4 fishers each and carry out
daily fishing trips, so we assumed that effort per boat is constant.
Fishing down the food web has effects on the entire coastal
fish assemblage beyond the direct effect on the target species. We
investigated the changes in the structure (species composition
and abundance) of the fish community using a principal compo-
nent analysis, which shows latitudinal differences in the structure
of the assemblages (Sala et al. 2002). To prevent these differences
from confounding effects we used only data from the 11 sites in
the southern region of study. The first principal component
(PC1, which accounts for as much of the variability in the data
as possible) explained 86% of the variance, therefore the scores
of sampling sites on PC1 were considered good proxies of the
structure of fish assemblages. We then performed a nonlinear
regression between fishing pressure and the scores of each sam-
pling site on PC1.
Results
There was a marked shift in the composition of the catch in
the coastal fishery in the southern Gulf of California (Fig. 3; Chi-
square = 95.65, df = 16, P < 0.001). Large predatory fishes such
as sharks, gulf grouper (Mycteroperca jordani), gulf coney
(Epinephelus acanthistius), goliath grouper, and broomtail grouper
(M. xenarcha) were among the most important fisheries in the
1970s, but became rare by 2000. Although total shark catches
have steadily increased in the southern Gulf of California, these
include both coastal and pelagic fisheries (Figure 1). Our results
indicate that the nearshore fishery collapsed and was substituted
by an offshore fishery. Catch of other species such as leopard
groupers (Mycteroperca rosacea), snappers, and jacks also
decreased, but they are still commonly caught. In contrast, some
species that were not appreciated or not targeted in the 1970s,
such as parrotfishes (Scarus spp.), whitefish (Caulolatilus prin-
ceps), spotted snapper (Lutjanus guttatus), tilefish (Caulolatilus
affinis), and creolefish (Paranthias colonus), have now become
common targets. Because the larger species of groupers have
become increasingly rare in the catch, most of the growth in
grouper fishing has been related to the leopard grouper (Figure 3).
March 2004 | www.fisheries.org | Fisheries 21
Figure 2. Temporal changes in the number of fishers, fishing boats, and gillnets in the
southern Gulf of California.
4. fisheriesmanagement
feature
22 Fisheries | www.fisheries.org | vol 29 no 3
Maximum fish size in the catch decreased 45 cm
from 1970 to 2000, and 33 cm in the 1980s alone
(Figure 4).
The results of the interviews showed that the
depletion of fish stocks near fishing villages forced
fishers to move to fishing sites located farther away. In
El Pardito, while most of the fishing activities in the
1970s were conducted near the fishing camp (<10 km
radius in average), fishing now occurs mostly 50 km
from it (Figure 5). We assume that this is representa-
tive of other fishing grounds in the Gulf of California.
Mean trophic level decreased from 4.2 in the 1970s
to 3.8 in 2000, the greatest reduction being in the
1980s. The average size of four abundant species
decreased along a gradient in fishing for both car-
nivorous (leopard grouper, yellow snapper, Lutjanus
argentiventris; greybar grunt Haemulon sexfasciatum)
and herbivorous fishes (bluechin parrotfish Scarus
ghobban) (Figure 6). We found similar patterns for
most commercial fishes.
The structure of fish assemblages changed along
the gradient in fishing pressure (Figure 7). These
results indicate the existence of a threshold
(around 7 fishing boats/km) beyond which average
fish size is significantly reduced and the structure of
the fish assemblage significantly changed.
Discussion and recommendations
The mean trophic level of the catch in Baja
California Sur in the 1970s was 4.2, significantly
higher than any other fishery in the world at that
time (Pauly et al. 1998a). This means that the most
important organisms caught were large predators
such as sharks and large groupers, while today the
most important targets are medium-size benthic-
feeding fishes. The decline in mean trophic level of
fish landed in only one decade (1980s) was greater
than that of the global marine fisheries since 1950,
and comparable to the largest regional declines in
Canada, northwest and western central Atlantic,
and south Pacific (Pauly et al. 1998a, 2001). These
estimates are, however, conservative. The first
impacts of a fishery are reduction in abundance and
size of the target species. Because small individuals
tend to have lower trophic levels than large adults
(Pauly et al. 1998a, b), the decline in mean trophic
level of the catch must have been greater than
reported here. These results indicate that the
coastal fisheries in the Gulf of California have had
comparatively stronger impacts in the short term
than most other fisheries in the world. Although
there were no rigorous fisheries statistics at the
species level for the Gulf of California, the low
variance in the data obtained from independent
interviews (Figure 3) allows us to believe that the
patterns described in this study are consistent.
Sharks were among the most important species
in the catch in the 1970s, but now have been
replaced by smaller species of bony fishes. The
decline in nearshore shark catches may be related to
an offshore shark fishery and to the fact that the
fished coastal sites may harbor nursery areas. The
possible interactions between the coastal artisanal
Figure 3. Shifts in fish catches in the southern Gulf of California coastal fishery. Bars
represent index of fishing importance (mean ± S.E.) (see text for details). Leopard
grouper (Mycteroperca rosacea); gulf grouper (M. jordani); jacks (Caranx caballus, C.
caninus and C. sexfasciatus); gulf coney (Epinephelus acanthistius); goliath grouper
(Epinephelus itajara); barred pargo (Hoplopagrus guntheri); broomtail (M. xenarcha);
yellow snapper (Lutjanus argentiventris); dog snapper (L. novemfasciatus); triggerfish
(Balistes polylepis); red snapper (L. peru); parrotfish (Scarus ghobban, S. compressus,
and S. perrico); ocean whitefish (Caulolatilus princes); spotted snapper (L. guttatus);
Pacific tilefish (Caulolatilus affinis); creolefish (Paranthias colonus).
5. fishery, and the sport and offshore fisheries targeting
pelagic species are not clear and cannot be explored
at present because data for the latter is yet unavail-
able. Nonetheless, the existing data indicate that
sharks were abundant in shallow rocky habitats in
1970, where they now have been depleted.
The decrease of the mean trophic level of the
catch is also associated with the disappearance of
some spawning aggregations of large predatory
fishes (such as the goliath grouper) in the southern
Gulf of California due to fishing (Sala et al. 2003).
The elimination of these aggregations accelerates
the decline in mean trophic level at a rate higher
than that caused by a fishery targeting non-repro-
ductive individuals. In order to prevent further
declines, fisheries management in the Gulf of
California needs to incorporate the spatio-tempo-
ral patterns of fish spawning.
The removal of large predators from marine ecosystems has cascade effects on
food webs (Estes et al. 1998; Jackson et al. 2001). Our results clearly indicate that
increasing fishing pressure causes significant changes in the structure of the fish
assemblages beyond the direct effects on target species. This supports at local scales
Pauly et al.’s (1998) hypothesis that landing data can be used as ecosystem indica-
tors, that is, changes in mean trophic level of the catch reflect changes in the
ecosystem. The results of this study suggest that reducing the potential density of
March 2004 | www.fisheries.org | Fisheries 23
Figure 4. Temporal changes in mean trophic level and
maximum fish size of coastal fisheries landings in the
southern Gulf of California.
Figure 5. Small scale changes in fishing grounds over
time around El Pardito fishing village. Values are
deviations from mean fishing use.
6. 24 Fisheries | www.fisheries.org | vol 29 no 3
boats below 7 boats/km2 could prevent marked reduc-
tions in average fish size and the degradation of fish
assemblages. This means that fisheries management
should be spatially-explicit and regulate effort as a func-
tion of 1) number of boats per fishing camp and 2) the
density of boats on fishing grounds at any time.
The overall patterns of species shifts, and decline of
CPUE and mean trophic level indicate that coastal
fisheries in the southern Gulf of California are unsus-
tainable. Food web collapses might not have occurred
yet because the decline in mean trophic level has not
been associated with overall declining catches (Pauly
et al. 2001), although most species showed stagnant
catches. Although coastal fisheries regulations for
sharks and finfish in the Gulf of California theoretically
limit fishing effort, they do not mention how it is to be
reached, beyond restricting fishing zones and gear spec-
ifications (DOF 2000). There are no fishing quotas,
and enforcement is virtually non-existant. Urgent
measures need to be taken to develop and implement
sound ecosystem-based fisheries management, while
the use of certain types of fishing gear (mainly gillnets)
is revised. Protecting those species at risk of local
extinction (Musick et al. 2000) and the spawning
aggregations of commercial species (Sala et al. 2002,
2003) is also necessary.
Acknowledgements
We are grateful to fishers from the fishing commu-
nities of El Pardito, La Paz, El Sargento, La Ribera, and
Cabo Pulmo who provided information on fish
catches. Preliminary catch, effort, and gear analysis at
la Ribera was provided by A. Klett of the Centro
Regional de Investigaciones Pesqueras in La Paz.
Several individuals and institutions provided help and
advice: G. Anaya, J.C. Barrera, L. Findley, I. Parra,
Reserva Islas del Golfo, Parque Marino Nacional Cabo
Pulmo, and World Wildlife Fund—Gulf of California
Program. Thanks to J. Curtiss, L. Fichman, G.
Thompson, and A. Tomba for their help with our div-
ing operations. We are also grateful to three
anonymous reviewers
who greatly improved
the manuscript. This
study was funded by
the Moore Family
Foundation, The Tinker
Foundation, the Robins
Family Foundation, and
the World Wildlife
Fund—Gulf of California
Program. We are
indebted to P. Dayton
and M. del Enebro for
continuous help and
encouragement through-
out the study. This article
is dedicated to the
memory of B. Montes
who helped us in many
ways throughout the
study.
fisheriesmanagaement
feature
Figure 6. Mean size (± S.E.)
of four abundant reef fishes
in 21 sites along a gradient in
fishing pressure in the
southern Gulf of California.
N= number of individuals for
which size was estimated
during visual censuses.
Figure 7. Changes in the
structure of fish communities
on rocky reefs along a
gradient in fishing pressure.
Community structure is
expressed as the score on the
first axis of a principal
component analysis,
providing a quantitative
description of species
abundance similarity at
different sites. Fishing
pressure explains 99% of the
variance in the data.
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