Archaic period (7000 B.C.–2500 B.C.)

Mexico’s west coast was an important center of Pre-Hispanic cultural development (Sauer & Brand, 1932; Scott, 1968). In Marismas, the estuarine and coastal environment provided habitat for hunter-gatherers that subsisted by harvesting mollusks (Mountjoy, 2000; Scott, 1968; Appendix 2). Archaeological findings show hundreds of shapeless mollusk mounds made of the discarded shells of Anadara sp. (a mangrove swamp and sandbar species; Foster, 2000). These shapeless mounds contrast with the unique semipyramidal shellmound structure “El Cálon” (estimated construction time 1750 B.C.) located near Laguna de Agua Grande. El Calon is 25 m high with a base of 79 m × 89 m. It was constructed by the piling of ∼260–300 million edible shellfish, mainly Anadara grandis, which had never been opened for food (Shenkel, 1971). Shellfish of diverse ecological environments (e.g., intertidal beaches, reefs, offshore waters) were also present in lower quantities at El Cálon. Unlike A. grandis, which is only found in low densities today, these other species are now absent from Marismas, which was under water 7,000 years ago (Foster & Gorenstein, 2000).

Pre-Classic period (2500 B.C.–900 B.C.)

During the Pre-Classic period, inhabitants at Bahía de Matanchén used nets to dredge large quantities of Aequipecten circularis, a free-swimming scallop that inhabits depths of 11–65 m today (Appendix 2). The abundance of A. circularis in later archaeological records suggests development of a deep-water shellfish industry by 200 B.C. Lack of bone in the shellfish mounds suggests that fish and tetrapods were uncommon in the diet of these early inhabitants (Feldman, 1976; Mountjoy, Taylor, & Feldman, 1972). Along the coast of San Blas, populations systematically exploited shellfish, sea catfish, sea turtles, birds, crabs, and sea urchins (Mountjoy & Claassen, 2005). The northern region of Marismas experienced episodes of abandonment caused by flooding of the coastal plain (Foster & Gorenstein, 2000).

Classic period (200 A.D.–900/1000 A.D.)

Coastal societies expanded and subsisted primarily on agriculture during this period (Foster & Gorenstein, 2000). San Blas inhabitants practiced agriculture on terraces built into the hillsides, but because of the proximity to the coastal plain and estuaries, there is archaeological evidence of fisheries exploitation (Mountjoy, 2000). Archaeological mounds from the Teacapán estuary revealed that fish (Ariidae, Haemulidae, Carangidae) and sharks (Carcharhinus spp.) were exploited. Numerous small fish fragments also suggest the use of mass-fishing techniques, either by very fine nets or poisoning (Cumbaa, 1973).

Post-Classic (1000 A.D.–Spanish contact)

Throughout this period, the population continued to expand throughout Mexico’s west coast. Billions of shellfish were extracted in Marismas and accumulated in approximately 628 shellfish middens and mounds distributed throughout the Teacapán estuary (Foster & Gorenstein, 2000; Figure 2(a) to (b); Appendix 3). The distinction between middens and mounds is based on the presence or absence of domestic refuse. Shenkel (1971) categorized these deposits according to their shape and species composition in: Oyster and Tivela middens composed of O. corteziensis and T. Byronensis, respectively; linear shell mounds (up to 300 m long and 90 m wide, composed only of O. corteziensis); and A. grandis mounds.

Figure 2.

(a) Locations of shellfish middens; (b) number of shellfish estimated by Shenkel (1971); (c) Human population of Marismas Nacionales and major events that affected inshore fisheries.

Shenkel (1971) developed two models about prehistoric shellfish exploitation using dietary intakes of shellfish by early inhabitants over a 600-year period established by ceramic sequences. The models assume that shellfish were locally consumed by a population of ∼5,000 people, or shellfish in the linear shell and A. grandis mounds were the refuse of a mollusk meat export, where a population of ∼500 people was involved in harvesting and preserving mollusks. This last hypothesis is likely because oyster meat was an important item traded among west Mexico tribes (Meighan, 1969). Another interpretation is that locals may have granted harvesting rights to outsiders (Shenkel, 1971).

Nonetheless, we can only speculate on which of these two scenarios best represents post-classic exploitation, since the history of shellfish harvesting in Marismas is linked to the geomorphological processes of a migrating shoreline by long-shore currents, and estuarine alluviation (Connally, 1974). This geomorphological evidence and ceramic sequences suggest a break in human occupation in Marismas from ∼900 to 1200 A.D. related to landform development (Foster & Gorenstein, 2000). However, overexploitation leading to local extinction of oysters or the overuse of agricultural land could also explain this temporary absence (Shenkel, 1971).

Period 1910 to 1949

By the early 20th century, cultivation of tobacco became a main economic activity of Marismas coastal ejidos (Mackinlay, 1998). Ejidos are collectively owned land, established throughout the 1930s by Mexico’s agrarian revolution (Yetman, 2000). For inshore fisheries, the post-revolutionary reforms (1911–1913) declared inshore shrimp an open access resource for subsistence fishing (Secretaría de Pesca, 1991).

By 1930s, the wetlands of Marismas were decreed a national patrimony. The government bought the few remaining private fishing companies and established inshore fishing cooperatives under the federal law “Ley Federal de Cooperativas” (Diario Oficial de la Federación, 1933). This aimed to improve and protect the welfare of fishers by establishing exclusive exploitation of reserved species: shrimp, oysters, grouper, cabrilla, totoaba, abalone, lobster, and sea turtles (Covantes-Rodríguez & Beraud-Lozano, 2011; Márquez, 1996).

Early fishing cooperatives accepted everyone who was willing to join and soon accomplished the government target of increasing food production and extracting income from shrimp export. Meanwhile, free fishers practiced subsistence fishing and were not enrolled in cooperatives. They nonetheless coexisted harmoniously with the cooperatives, mainly because fisheries were then perceived as inexhaustible (McGoodwin, 1980) This perception was due to the presence of numerous corvinas (Sciaenidae), groupers (Epinephelidae, Serranidae), jacks (Carangidae), snappers (Lutjanidae), and snooks (Centropomidae; Wing, 1969; Table 4). In Teacapán, a prosperous shark fishery grew in response to the demand for shark liver oil during World War II (McGoodwin, 1973).

By the late 1940s, inshore fishing cooperatives were facing conflicts since they evolved in a strongly centralized environment, where the commercialization of their products strongly depended on the government’s packing plants. In addition, throughout the 1940s, political-economic bossing afflicted Mexico’s collective systems (which included fishing cooperatives) and for inshore fisheries, this lead to large shrimp smuggling throughout Marismas (McGoodwin, 1987). Mexico began fisheries exploitation in offshore waters, in the absence of the Allies’ fleets during and after World War II, and created offshore shrimp-fishing cooperatives (Covantes-Rodríguez & Beraud-Lozano, 2011).

Period 1950 to 1980

Monocultures flourished in Sinaloa and Nayarit (1940–1970). Rural peasants worked for meager wages in low-grade agricultural fields and explored fishing for subsistence and extra income (Cruz-Torres, 2001), on grounds that were exclusive for cooperatives. This practice induced significant conflicts (McGoodwin, 1987), that intensified when the government relocated inland rural peasants to coastal areas (1952–1958) in response to Mexico’s agricultural crisis (Secretaría de Pesca, 1991). Meanwhile, Mexico’s Pacific offshore fleet expanded from 50 to 500 trawlers from 1949 to 1955, and trawlers fished near Marismas coastal lagoons. This activity was suggested as a threat for the further reduction of finfish populations (Covantes-Rodríguez & Beraud-Lozano, 2011; Edwards, 1978).

The 1950s were characterized by a race to catch finfish (McGoodwin, 1973), aided by new fishing technologies including outboard motors, fiberglass skiffs, and nylon nets (e.g., gillnets), increasing the feasibility of catching large individuals (Table 3). Consequently, higher trophic level (TL) finfish (snooks, groupers, and snappers) were decimated, while the shark fishery revived in Teacapán and newly paved roads aided shark product commercialization (McGoodwin, 1980). By early 1960s, inshore fishing cooperatives faced reduced shrimp production and fisher overcrowding. Exacerbating this issue, severe floods of late 1960s and agricultural runoff containing pesticides decimated many oyster banks of Sinaloa (Departamento de Pesca, 1978).

The productive estuaries of San Blás in the 1960s had bountiful fisheries, including large populations of olive ridley sea turtles (Lepidochelys olivacea), of which hundreds were killed weekly in San Blas throughout 1960s to 1970s, quickly exhausting local populations (Mountjoy, 1974).

Early fisheries research advised increasing fishing effort in Marismas, dredging the silted estuaries, and opening an artificial channel to boost flow within the lagoon (Chapa-Saldaña, 1966). Consequently, the Canal de Cuautla opened in 1975 and connected the Agua Brava lagoon-estuarine system to the Pacific Ocean (Flores-Verdugo et al., 1997).

Meanwhile offshore cooperatives increased shrimp exports, and accelerated fishing effort reduced shrimp landings in the late 1960s (Snyder-Onn & Brusca, 1975). To assure future production, a shrimp-fishing ban was established in the summer when shrimp larvae migrate from the sea into the lagoons. The offshore cooperatives could reduce the ban (June–September) depending on catch from the previous year, but this was inaccessible for the inshore cooperatives ban (April–August). In combination with government lack of support toward inshore fishing cooperatives, this created an ever-present conflict between the offshore and inshore sectors. By the 1980s, Mexico’s economic crisis forced the country to join international lending plans in exchange for establishing market-oriented reforms (Vasquez, 1996). Then, the offshore shrimp cooperatives were debt-ridden. The country reshaped the fisheries law (Ley de Pesca) to privatize offshore shrimp, but these changes negatively affected the long-term rights of inshore fishers (Vásquez-León, 1994).

Period 1981 to present

Changes to Mexico’s fisheries law throughout the 1980s and1990s privileged the growing private offshore shrimp industry and aquaculture shrimp farms. New reforms switched the inshore cooperatives to a fishing permit system and reduced their historical fishing area from 10 to 5 miles offshore. Proliferation of individuals without fishing tradition was facilitated by ensuing government turmoil (Diario Oficial de la Federación, 1997; Vásquez-León, 1994), exploiting resources heavily, and using more damaging gear than traditional users (Vásquez-León & McGuire, 1994).

The increased fishing effort was additionally maintained by organized rule-breaking systems (e.g., the shrimp black market), driven by the subsistence need of the fisher’s population (Vásquez-León & McGuire, 1994). Conflicts also arose in inshore fishing grounds historically used by cooperatives because of the withdrawal of shrimp post-larvae by the shrimp aquaculture farms (Chapa-Saldaña, 2007). These became popular with the advancement of fisheries privatization (Berlanga-Robles, Ruiz-Luna, Bocco, & Vekerdy, 2011). The later events at Marismas exemplify how the country transitioned toward the “commodification of nature” (see Carothers & Chambers, 2012; Dhandapani, 2015; Washington, 2012). This was driven by the neoliberal capitalistic politics the Mexican government strongly embraced since the 1980s. For Marismas, shrimp fisheries and water resources (used for intensive agriculture in Sonora and Sinaloa) were a commodity with a historic importance given their substantial economic revenues. The later placed these resources at the center of Mexico’s early privatization policies.

Throughout this period, increasing fishing effort in San Blás decreased landings of primary species (snappers, groupers, and snooks), while catches of secondary species (sierra, small sharks, sea catfish, mullet, and mojarra) increased and gained widespread consumer acceptance (Robles-García, 1987). Early fisheries data are insufficient to plot trajectories of fishery resources, but field surveys results show that 80% of fishers acknowledged a reduction in fish diversity, size, and catches over the last decades (Figure 2(a)). Fishers report fish catches have decreased over 50% since their initial year of fishing (Figure 2(c) to (d)). When compared with the types of fish (families) consumed in the past, the diversity of resources has decreased substantially (Figure 4, Appendices 1 and 2). For example, the higher TL fish (groupers TL 4, snappers TL 4.1, and snooks TL 3.8) in Marismas catches are now substituted with landings of fish of lesser value or lower TL (sea catfish TL 3.6, mullets TL 2.1, mojarras TL 3.2, and sierras TL 4.4).

Figure 4.

Percent of fisheries landings at Marismas Nacionales from 2001 to 2009 for families in the three different fishery resource categories: (a) Lagoon-estuarine (b) transition zone and (c) coastal. See Appendix 1 for landings values. (d) Spatial description of the different habitats used for the species groups classification.

Marismas contemporary fishery production is primarily from shrimp (77% of total landings). Although landings from 2001 to 2009 remained steady (mean 2,934 tons, SD 943 tons), fishers report less catch than in previous decades (Figure 2(b) to (d)). Moreover, field surveys report that shrimp fishing is based on the illegal use of pork meal to aggregate individuals and on prohibited nets of small mesh size (Rubio-Cisneros, Aburto-Oropeza, & Ezcurra, 2012; Table 4; Figure 5). Fishing shrimp with pork meal illustrates how the high profitability of the shrimp fishery (US $5.7 million per year) promotes the use of unsustainable fishing practices to extract more than what the system can provide. It also demonstrates that Marismas historical productivity is decreasing, and raises questions of the long-term profitability of the shrimp fishery and the wetland’s health (Appendix 4).

Figure 5.

(a–b) Use of unsustainable fishing practices at Marismas Nacionales, (b–e) denote the cycle developed by the use of unsustainable fishing practices to catch shrimp. Text highlighted in gray shows outcomes of the vicious cycle related to the shrimp fishery.

Currently no data exists regarding environmental damage caused by the use of pork meal, but runoff from agriculture and shrimp farms has already affected the ecology of the region (Blais, 2003; Figure 5). Shrimp farm infrastructure (channels, roads) also fragmented and disturbed ecological processes of Marismas wetlands (Berlanga-Robles & Ruiz-Luna, 2002, 2007; Páez-Osuna, Guerrero-Galvan, & Ruiz-Fernandez, 1999). Furthermore, faulty planning of the Canal de Cuautla increased the inlet’s width from 30 m to 2 km wide through erosion. Consequently, the salinity, water flow, and inundation patterns have changed near the channel. As such, deforestation of mangroves and modification of fauna diversity impacted the well-being of fishers (Berlanga-Robles & Ruíz-Luna, 2002, 2007; Hernández-Guzmán, Ruíz-Luna, & Berlanga-Robles, 2008; Kovacs, 2000; Páez-Osuna et al., 1999; Appendix 5). Furthermore, dams and agricultural irrigation near Marismas reduced freshwater input yet continued estuarine sedimentation (Hernández-Guzmán et al., 2008). Finally, fishers’ responses to surveys revealed a litany of problems associated to long-term silting which has historically shattered productive fishing grounds.