Rapidly shifting environmental baselines among fishers of the Gulf of California

Andrea Sáenz-Arroyo, CallumM Roberts, Jorge Torre, Micheline Cariño-Olvera, RobertoR Enríquez-Andrade

Abstract

Shifting environmental baselines are inter-generational changes in perception of the state of the environment. As one generation replaces another, people's perceptions of what is natural change even to the extent that they no longer believe historical anecdotes of past abundance or size of species. Although widely accepted, this phenomenon has yet to be quantitatively tested. Here we survey three generations of fishers from Mexico's Gulf of California (N=108), where fish populations have declined steeply over the last 60 years, to investigate how far and fast their environmental baselines are shifting. Compared to young fishers, old fishers named five times as many species and four times as many fishing sites as once being abundant/productive but now depleted (Kruskal–Wallis tests, both p<0.001) with no evidence of a slowdown in rates of loss experienced by younger compared to older generations (Kruskall-Wallis test, NS in both cases). Old fishers caught up to 25 times as many Gulf grouper Mycteroperca jordani as young fishers on their best ever fishing day (regression r2=0.62, p<0.001). Despite times of plentiful large fish still being within living memory, few young fishers appreciated that large species had ever been common or nearshore sites productive. Such rapid shifts in perception of what is natural help explain why society is tolerant of the creeping loss of biodiversity. They imply a large educational hurdle in efforts to reset expectations and targets for conservation.

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1. Introduction

In 1995 Pauly described the phenomenon of shifting environmental baselines, noting that each generation of scientists subconsciously views as ‘natural’ the way the environment appeared in their youth (Pauly 1995). Although he described shifting baselines in relation to fisheries science, the phenomenon is general and applies to all sectors of society. As one generation replaces another, people's perspectives change such that they fail to appreciate the extent of past environmental modifications by humanity. Much of the evidence for shifting baselines is anecdotal1. For example, an idea of the former abundance of whales in the Atlantic can be gained from the account of George Shelvocke2. Sailing along the coast of South America in 1718 he wrote “whales, grampuses, and other fish of a monstrous bulk, are3 in such numbers off the coast of Patagonia that they were really offensive to us very often. For they would come sometimes so close to us as to stifle us with their stench when they blew, and would lie so near us that I have frequently thought it impossible to escape striking upon them on every send of a sea.” (Shelvocke 1726). Recent genetic studies reveal much greater abundance of whales in the Atlantic than historical estimates suggested (Roman & Palumbi 2003), lending new credibility to Shelvocke's observations.

A second more recent example comes from a study of data from research vessels surveying for new tuna fishing grounds in the late 1950 s in the Gulf of Mexico. Comparison of their catch records with recent surveys found that the current population of the oceanic whitetip shark Carcharhinus longimanus may be less than 1% of what it was in the 1950 s (Baum & Myers 2004). The researchers noted that the phenomenon of the shifting baseline has acted within the Gulf of Mexico scientific community to such an extent that papers on sharks in the area showed no recognition of the oceanic whitetip shark's former presence and abundance in the ecosystem.

Although the concept of shifting baselines is receiving growing scientific and popular recognition (Dayton et al. 1998; Myers & Worm 2003; Roberts 2003; Baum & Myers 2004; www.shiftingbaselines.org), we are unaware of any quantitative tests in the field. Here we put the concept to the test among fishers from the Gulf of California, a semi-enclosed sea in northwest Mexico. The Gulf of California is a place of exceptional biodiversity (Brusca et al. in press) and conservation importance (Sala et al. 2002). It is rich in endemic species (Roberts et al. 2002) and is one of the few places in the world where we can still find large concentrations of marine megafauna such as hammerhead sharks, manta rays, billfish and cetaceans. In contrast to ecosystems such as the North Sea (Wolff 2000; Christensen et al. 2003) or the Caribbean (Jackson 1997) where the megafauna was depleted long ago, fisheries have only recently intensified in the Gulf of California (Poder Ejecutivo Federal. Comisión Nacional de Pesca y Acuacultur 2000), threatening the megafauna which is now in rapid decline. This provides a natural laboratory to study how humans perceive changes in the natural environment.

2. Methods

We interviewed 108 fishers selected randomly from three generations in 11 fishing communities of central Baja California: young (15–30 years old, N=40), middle-aged (31–54, N=34), and old (≥55, N=34). To elicit fishers' perceptions of how fishing has altered the marine environment, we asked them to name species and places that they considered to have been depleted by fishing. Given that fishers use common names for species, and some names differ among communities, we used fish guides and photographs to clarify species identifications during the interviews (Kerstitch 1989; Fisher et al. 1995; Allen & Robertson 1998; Gotshall 1998; Thomsen et al. 2000).

We also questioned them about the fishery for the Gulf grouper, Mycteroperca jordani. Specifically, we asked fishers about the best catch they ever remembered landing, the largest animal they ever caught, and the year in which these catches were made. We asked them to draw on the ground or on a wall the length of the largest fish they had ever caught. This was then measured to the nearest centimetre and converted to biomass using a length-weight relationship for Mycteroperca species. Breeding populations of this grouper, which can reach ≈ 2 m in length, are restricted to the northeastern Mexican Pacific. Attributes such as large body size and a restricted geographic range make a species vulnerable to overfishing and even extinction (Morris et al. 2000; Reynolds et al. 2001). Once abundant, the Gulf grouper is now rare and is listed as Vulnerable in the World Conservation Union's Red List of Threatened Species (Hudson & Mace 1996). Our own historical research, based on fishers' anecdotes, systematic documentation of naturalists' observations and grey literature, suggests that today's population is at most a few percent of the size of that present in the 1940 s (Sáenz-Arroyo et al. in press).

Interviews were conducted from May to September 2002. To avoid results being influenced by biogeographic differences in species composition and abundance, we conducted interviews exclusively in the central Gulf of California, one of the three biogeographic regions of the sea defined by Walker (1960). We followed technical and ethical recommendations in Bunce et al. (2000), who provide detailed advice on conducting respectful interviews acknowledging local customs and culture, and minimising disruption to people's routines. They also give guidelines on sample size considering the trade-offs in resources available (time, personnel and money) and the goal of achieving a representative sample of adequate size. Our questionnaire was answered by between 5% and 25% of the fishing population in each of 11 localities visited, with the figure depending on size of the fishing village. The sample size for each locality and age class was determined from data in the State Population Census (INEGI 2002). To approximate randomisation, the questionnaire was applied haphazardly to fishers we met on the beach in each community until the appropriate sample size for each age category was reached. All interviews were conducted in private. We visited old retired fishers in their homes after asking younger fishers where to find them (see Online Materials for questionnaire and further sampling details). Data were tested for normality prior to analysis and non-parametric statistics used where necessary.

3. Results

Our results show that, although the majority of fishers interviewed (84%) considered that fishing had led to depletion or loss of some species or fishing sites, analysis of their answers reveals a rapid inter-generational shift in their perception of how the seascape looked in the past. The median number of species mentioned by old fishers as depleted was 11, middle-aged mentioned seven and young fishers two (figure 1a; Kruskal–Wallis test, Χ22=37.65, p<0.001). Since older fishers have had more opportunity to see species loss, we calculated rates of loss by dividing the number of species mentioned by the number of years fishing by each respondent. There was no significant difference in loss rate across generations, indicating no slow down in biodiversity decline (Kruskal–Wallis test, Χ22=2.00, p=0.37).

Figure 1

(a) Number of species mentioned by each generation of fishers as depleted (Kruskal–Wallis test, Χ22=37.7, p<0.001). Boxes show median, 5th, 25th, 50th and 95th percentiles of the data; dots show range. (b) Number of sites mentioned by each generation of fishers as depleted (Kruskal–Wallis test, Χ22=39.0, p<0.001). (c) Sites mentioned as depleted were coded as coastal (1) or offshore (2). Mean scores (±95% CI) show a significant shift from the mention of mainly coastal sites by old fishers to more offshore sites amongst the young generation (Kruskal–Wallis test, Χ22=12.0, p=0.002). In total, old fishers listed 95 sites as depleted by fishing, middle-aged fishers 72 sites and young fishers 40 sites.

Old fishers remembered times when large and vulnerable animals were much more abundant, as were easily overexploited invertebrates (table 1). These people began fishing when the sea supported abundant medium-sized sharks like the bull shark (Carcharinus leucas), hammerheads (Sphyrna spp.), large groupers (e.g. M. jordani), large snappers (e.g. Lutjanus novemfasciatus), Pacific green turtle (Chelonia mydas agassisii) and large edible invertebrates such as the purple lip rock oyster (Spondylus calcifer) and Cortez conch (Strombus galeatus). They testified how these populations were depleted over the years in which they worked. By contrast middle-aged fishers showed less appreciation of past abundances and few young fishers seemed aware that such species had ever been common (table 1).

View this table:
Table 1

The percentages of respondents from three generations of fishers that considered populations of different exploited species to have been depleted by fishing.

Although old fishers recalled an ecosystem in a better condition than that experienced by young fishers, their baselines also appeared shifted from what early Europeans visiting the area witnessed. Few old fishers commented on the once valuable fishery for pearl oysters (Pinctada mazatlanica)(Cariño-Olvera 2000), abundant and extensive from the beginning of the 17th century to 1940 when the pearl banks collapsed (Monteforte & Cariño-Olvera 1992; Cariño-Olvera 2000). None of their testimonies fitted with the seascape observed by 17th century Spaniards such as Nicolás de Cardona who wrote “along the seacoast of the interior region, over a distance of one hundred leagues all that one sees are heaps of pearl oysters” (Cardona 1632). Few also mentioned as depleted the largest predators such as the white shark (Carcharodon carcharias) and goliath grouper (Epinephelus itajara), the latter a well-documented and common meal of 17th and 18th century buccaneers who haunted the area (Dampier 1697).

Shifting perspectives were also evident across the three generations in the sites mentioned as being depleted by fishing. The median number of sites reported as depleted by old fishers was 4.5, by middle-aged fishers 2 and young fishers 1 (figure 1b, Kruskal–Wallis test, Χ22=39.0, p<0.001). Again, converting these data to sites depleted by year of fishing experience of respondents, there was no evidence in a slow down of the rate of depletion across generations (Kruskal–Wallis test, Χ22=1.2, p=0.54). In total, old fishers named 95 sites as depleted, middle-aged 72 and young fishers 40.

We plotted on maps all sites mentioned as once being productive and now depleted and coded them as coastal, or offshore (seamounts) (figure 1c). There was a significant inter-generational shift from the mention of nearshore to offshore sites (Kruskal–Wallis test, Χ22=12.0, p=0.002). There was a time when fishers could land large catches and big fish from sites close to shore. As fishing depleted those sites fishers moved further offshore. Amongst younger fishers, many did not realize that nearshore sites had once been more productive, since few mentioned them as depleted. However, they were concerned about more recent impacts of fishing in offshore areas.

Large predators, such as the Gulf grouper, were once common in the area but appeared to exist now only in historical documents and the memories of old fishers. Descriptions by early 20th century naturalists portray a seascape where Gulf groupers dominated the reef ecosystem (Sáenz-Arroyo et al. in press). In 1932 the naturalist Griffing Bancroft wrote of Gulf groupers from San Idelfonso Island in the central Gulf of California “In unimaginable numbers, from one edge to the other, Garopuas (sic) haunt the rocky ledges of coast and islands. If a jigger is trolled at a speed of about four miles an hour over the proper bottom there is no question of catching something, the only gamble is in species and size. The slogan ‘a ton an hour’ can often be bettered.”1 (Bancroft 1932). Richard Crocker of the California Division of Fish and Game concurred, writing in 1937 “Sport fishermen who angle in Mexican waters encounter no difficulty in catching their fill of the abundant cabrilla and grouper. In fact they find it virtually impossible to catch anything else along the rocky shores inhabited by these voracious and unwary fish that will strike at any moving object smaller than themselves”2. Contemporary photographs also picture smiling fishers sporting giant catches (Kira 1999) (figure 2), and many other historical documents agree that this species, which is a rarity today, was once incredibly abundant (Sáenz-Arroyo et al. in press).

Figure 2

Photograph of two fishers hauling a good-sized Gulf grouper. Although the photograph is not dated, the harpoon, the canoe and fishers' clothes characterize the middle of last century. Reproduced with kind permission of Gene Kira (Kira 1999).

Only the oldest fishers we interviewed had experienced the heyday of fishing for giant groupers. We asked fishers what had been their best ever day's catch of the Gulf grouper and when they caught it. In the 1940 s and 1950 s fishers recalled catching up to 25 fish in a day (figure 3a), by the 1960 s this had dropped to 10 or 12, and by the 1990 s it was one or two. We can also see a shifting baseline in the fraction of fishers from each generation who had ever caught a Gulf grouper. While 96% of old fishers and 90% of middle-aged fishers had caught the species, only 45% of young fishers had. Accepting that younger fishers had had less time to catch the species, it does however provide a context for the finding (table 1) that only 10% of young fishers considered the species depleted compared to 56% of middle-aged and 85% of older fishers. We also asked fishers how big was the largest Gulf grouper they had landed and when was it caught. Again, experiences were significantly different across generations (figure 3b). The average size of the largest fish ever caught by old fishers, estimated from a length-weight relationship, was 84 kg, by middle-aged 72 kg and by young fishers 63 kg. This result is not simply an artifact of older fishers being more skilled or having fished for longer. A regression of the year in which fishers recalled landing their largest fish against the size of the fish shows that the biggest fish really are disappearing (figure 3c).

Figure 3

(a) Size of the best day's catch of Gulf groupers plotted against the year in which the fisher remembered landing it (with a second order regression line shown r2=0.62, p<0.001). (b) Mean weight (±95% CI) of the largest Gulf grouper ever landed by three generations of fishers (one-way ANOVA, p<0.001; LSD test, all groups significantly different at p<0.05). (c) Second order regression (r2=0.21, p<0.001) of the weight of the largest Gulf grouper fisher's recollected catching versus year in which it was landed.

4. Discussion

Like Pandora's box, which when opened allows all human's miseries to escape, the shifting baselines syndrome spreads insidiously, challenging much of our knowledge of species biogeography, past ranges of distribution, original population numbers and the ecosystem roles played by species in the past (Pitcher 2001; Jackson et al. 2001; Baum et al. 2003; Baum & Myers 2004; Christensen et al. 2003; Myers & Worm 2003). This condition not only concerns the scientific community, but also affects all of society. For example, few Californians are aware that the bear in their flag was exterminated by humans long ago (Diamond 1992); nor have we pondered on how abundant the now threatened golden eagle (Aquila chrysaetos) must have been in central pre-hispanic México for it to become the symbol of the Mexican culture (de la Garza 1996).

The speed with which environmental baselines are shifting among fishers of the Gulf of California is troubling. We might expect environmental baselines to be changing in today's more urbanized populations who have less direct contact with nature than past generations. However, it is evident that baselines shift rapidly even among people whose occupations bring them into daily contact with nature. Such rapid shifts help explain why human societies are so tolerant to the creeping loss of biodiversity. Compared to many other parts of the world where the marine megafauna was depleted perhaps hundreds of years ago (Wolff 2000; Jackson et al. 2001; Pitcher 2001), loss of megafauna in the Gulf of California is still within living memory. Many of the young fishers we interviewed came from fishing families. Despite having older family members who remembered the past abundances of large fish, that knowledge does not seem to have been passed on, or young people have not appreciated its significance.

When we explained to fishers why their memories were important to our study, they were happy to collaborate. When the generation of people that began fishing in the 1940 s have died, their insight into how the environment once looked will be gone forever. Although it is still challenging to incorporate traditional knowledge into scientific analyses (Huntington 2000; Johannes et al. 2000), that knowledge can offer important insights into the former state of ecosystems (Johannes 1981), especially in countries where written records are sparse. Passing on that knowledge to younger generations is critical to slow the process of shifting environmental baselines, particularly in developing countries that have populations that are highly skewed towards young people. In Mexico, for example, 66% of the population is under 30 years old (INEGI 2002). Most of these young people have no experience or understanding of previous ecosystem states even in the relatively recent past. This implies an enormous educational hurdle to overcome in efforts to promote conservation and set appropriate targets for restoration of depleted and degraded environments, whether they are on land or in the sea.

5. Endnotes

  • Since ” garropa de astillero” is the local Spanish name for Gulf grouper and “garropa jaspeada” for the broomtail grouper (Mycteroperca xenarcha) and some life stages of the latter are restricted to estuaries or mangroves, which are uncommon around San Idelfonso, Bancroft is most likely referring to the Gulf grouper.

  • In his note Crocker identified the Gulf grouper (M. jordani) as grouper, and another grouper, Epinephelus analogus, as cabrilla.

6. Uncited references

INEGI (2000).

Acknowledgments

We thank Consejo Nacional de Ciencia y Tecnología—México (CONACYT), The Pew Charitable Trusts and Comunidad y Biodiverdisad A.C. for supporting this research. D. Raffaelli and J. Lovett gave helpful advice on methodology. Logistic support from Parque Nacional Bahía de Loreto, Sociedad de Historia Natural Niparajá and Area de Proteccion de Flora y Fauna - Islas del Golfo de California in Baja California Sur, was invaluable. M. Mandujano, A. Castro, K. Peláez. A. Eslimán and E. Castañón helped with fieldwork. V. Perez-Cirera and J. Hawkins revised and improved the final manuscript.

Footnotes

  • Shifting environmental baselines are inter-generational changes in perception of the state of the environment.

  • Shifting environmental baselines are inter-generational changes in perception of the state of the environment.

  • Shifting environmental baselines are inter-generational changes in perception of the state of the environment.

    • Received February 3, 2005.
    • Accepted May 24, 2005.

References

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