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Huatulco

Ants in the Selva Seca

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By Julie Etra—

Ayayay. Ants are everywhere—in and outside our house here in the Bahías de Huatulco. That should come as no surprise given the climate. According to the literature, Mexico is home to more than 1,100 species of ants across 10 subfamilies.

Our house hosts the big, flesh-colored mordullos, or carpenter ants, who appear in the bathroom just before dawn. There are the tiny “sugar” ants—whom I call crazy ants because their movement seems randomly drunk—skittering across my desk. At least two species of small black ants are nearly always on my kitchen counters, despite my diligence (and generosity) with vinegar, bleach, and insecticides.

I’ve written before about the truly terrifying barranderas (sweeper ants) that invade in coordinated waves in pursuit of live prey (www.theeyehuatulco.com/2012/06/01/sweeper-ants-of-the-selva-seca). During the five-plus months we’re here each year, we usually endure two or three of these incursions. And then there are the leafcutter ants—the subject of this article—capable of stripping my vigorous, 15-year-old bougainvillea in a single night. Here, I’m talking about Atta mexicana, the Mexican leafcutter ant.

Ants in Mexican Mythology and Culture
Ants appear in pre-Hispanic mythology, most notably in stories involving the Aztec god Quetzalcoatl. In one version of the myth, Quetzalcoatl transforms himself into an ant to retrieve the first kernel of corn from a mountain, bringing sustenance—and civilization—to humanity. Through this story, ants become linked to the origins of life and agriculture.

In the Mexico City neighborhood of Azcapotzalco—whose name means “place where the ants live”—ants appear repeatedly in sculptures, murals, and architectural details. Once a distinct community and now absorbed into the city’s sprawl, Azcapotzalco is home to the Parroquia y Convento de los Santos Apóstoles Felipe y Santiago el Menor, built in 1565. A depiction of an ant still adorns its façade.

Legend holds that the Spanish enslaved the local population to construct the church, and that the maltreated locals responded by placing an ant at its base as a curse. One interpretation suggests the ant represents Quetzalcoatl returning from the underworld with corn for humanity—though how this constitutes a curse is unclear. Another version claims that when the ant reaches the base of the bell tower, it will announce the end of the world, for which we are all still waiting.

As explored in The Eye archives, ants remain part of Mexico’s culinary culture in the form of escamoles (ant larvae) and chicatanas—the winged reproductive females that appear during the rainy season. These prized ants are captured, their wings removed, and prepared in a variety of traditional dishes.

Range and Habitat
Leafcutter ants (Atta spp.), known in Mexico as hormigas arrieras (muleteer ants), are aptly named for their ability to transport plant material weighing up to ten times their own body weight—the ants themselves serving as pack animals.

They range throughout the Neotropics, from southern Mexico through Central and South America and the Caribbean, and occur as far north as southern Texas and Florida. They inhabit elevations from sea level to nearly 9,800 feet (3,000 meters).

Leafcutters require warm, humid environments and well-drained soils to build their vast underground fungus gardens. Although the literature often claims they thrive mainly in managed landscapes such as farms and roadsides, my own observations suggest otherwise. I’ve watched them harvest flowers and leaves from native trees in the selva seca, and friends in Pluma report similar behavior. At least here, they seem just as at home in wild ecosystems.

Foraging and Food Preparation
Because leafcutter ants cannot digest cellulose, harvested leaves—and occasionally flower parts—are transported back to the nest, processed into pulp, and incorporated into existing fungus gardens.

There, the ants cultivate a specific symbiotic fungus using enzymes produced in their fecal fluids (yes—ick). The fungus produces nutrient-rich structures called gongylidia, which feed the entire colony, particularly the developing larvae. In return, the ants protect the fungus from pests, while symbiotic bacteria suppress unwanted molds.

Physiology
Leafcutter ants are astonishingly strong and agile. They can carry fragments weighing up to 50 times their own body weight, thanks to powerful mandibles, robust muscles, and flexible, multi-jointed legs equipped with grasping feet. They can even pivot on their hind legs to maneuver material into designated chambers.

This remarkable physiology allows them to travel 600 feet or more from the nest in search of suitable plants.

The Colony
A single leafcutter colony can contain up to eight million individuals, ruled by a single queen who may live more than 20 years. The nest itself is vast—sometimes covering more than 720 square feet (67 m²) and extending 23 feet (seven meters) underground.

These subterranean cities contain thousands of chambers, including fungus gardens, brood chambers, a queen’s chamber, food-processing areas, and separate garbage dumps to maintain sanitation. Sophisticated ventilation tunnels regulate airflow throughout the nest.

Caste System
Leafcutter ants operate under a highly structured system of task partitioning, with roles determined largely by size:
· Minims: Tiny workers that tend the fungus gardens, brood, and waste.
· Minors: Slightly larger workers that groom and cultivate fungus.
· Mediae: Foragers that harvest and transport plant material.
· Majors: Large soldiers that defend the nest and perform heavy labor; they bite.
Older ants often become trash workers, a hazardous role that exposes them to toxins and pathogens. These ants effectively self-quarantine, protecting the queen, brood, and primary fungus gardens.

Reproduction
Leafcutter ants reproduce through massive mating flights that occur after the first substantial rains of the season. Winged queens (chicatanas) and males take to the air, mate, and shed their wings.

Each fertilized queen carries a pellet of symbiotic fungus from her natal nest to seed a new colony. She lays eggs and initially feeds the larvae with infertile eggs, storing sperm for life.

The mating flights are said to be spectacular—and lucrative—for human predators who harvest chicatanas during this brief window.

Huatulco

AI May Be the Headline, But Nature Is Still the Story

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By Kary Vannice

2025 has been a year fixated on technology, artificial intelligence, and man-made machines. It seems not a day’s gone went by without some mention of AI, either as a “new hope” or an existential threat.

Some of this year’s headlines included: “Tech show features more robots and AI than ever before,” “AI Could Reshape Humanity — And We Have No Plan For It,” and “MI5’s director warns of autonomous AI systems evading human oversight.”

The world is captivated by how motherboards, chatbots, and microchips might define the next decade or two of life on Earth. And yet, with our eyes and attention focused on the inner world of AI, many seem to have forgotten that we still live on a planet of water, earth and sky.

Centuries — and even just a few decades — ago, humanity strove to explore and define the world around us by seeking to decode nature and uncover what it could teach us about our own humanity and this place we call home.

Our planet is still evolving and we are still making striking discoveries in the natural world. So, in case you missed them, here are some of 2025’s biggest discoveries in nature.

Earth’s Deepest Ecosystem Discovered Six Miles Below the Sea – Nature Magazine

Scientists documented thriving animal communities using methane/chemosynthesis more than 9,000 meters below the surface of the Pacific. These microbes possess biochemical adaptations that allow them to extract energy from compounds that are toxic to most life. The finding may help us harness deep-sea enzymes to process industrial waste, create cleaner fuels, or break down methane emissions.

The Earth’s Inner Core Is Changing Shape – ScienceAlert

New seismic data revealed that Earth’s inner core, long believed to be a static metal sphere, is actually changing shape. Scientists found that it’s slightly deforming, rotating, and even slowing in certain regions. This helps researchers understand how energy moves through the planet and how Earth’s magnetic field, tectonic motion, and heat flow interact. The discovery could improve forecasts of geomagnetic shifts that influence navigation systems, satellite operations, and even climate patterns.

New Giant Amazonian Tree Species Identified – Environment News

In the Peruvian Amazon, botanists identified Drypetes oliveri, a towering 35-meter tree that had gone unnoticed until now. With more than 7,000 tree species, the Amazon still holds secrets like this “hidden giant” — a reminder that protecting these trees is essential for global carbon storage and conservation.

The Discovery of a “Missing” Plant Enzyme – Nature

Scientists discovered a special plant enzyme that had been missing from one of nature’s most important chemical recipes. The enzyme, called iridoid cyclase, helps plants make compounds that protect them from bugs and disease. These newly identified compounds can now be used to create important medicines — including drugs that fight cancer and malaria. This missing piece in nature’s chemistry set could one day help save lives.

Plants Have Hidden “Wiring” That Helps Them Handle Stress – Nature

Researchers studying tomato plants found a new molecular “switch” that helps control the rate at which fruits ripen and how they cope with tough conditions like drought. This shows that even familiar crops still have hidden systems that help them survive when water is scarce or weather turns extreme. By understanding this new wiring, scientists can help farmers grow stronger, healthier plants that need fewer resources and can better adapt to a changing climate.

The “Woolly Devil” Plant Discovered in Texas Desert – National Public Radio

In Big Bend National Park, botanists identified a completely new genus and species of flowering plant, nicknamed the “Woolly Devil.” Covered in tiny hair-like glands similar to those in plants that produce powerful medicinal compounds, it could potentially lead to the development of new, nature-derived medicines. Its discovery in a well-studied national park is another reminder that unexplored biological potential still exists in plain sight.

In a world captivated by algorithms and automation, it’s easy to lose sight of the fact that we’re part of an ever-evolving ecosystem. And the more we uncover about Earth — from the shape-shifting core beneath us to the microscopic chemistry inside a leaf — the more we realize how little we actually know. The discoveries of 2025 remind us that nature is still alive, dynamic, and brimming with answers to questions we haven’t even begun to ask.

Artificial intelligence may help us build the future, but nature still holds the blueprint for how to live wisely on this planet. So, perhaps the real “new frontier” isn’t the one we’re coding in ones and zeros, but the one we’re still discovering beneath our feet.

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Once They’re Gone, They’re Gone Forever

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By Kary Vannice

As we come into a new year, many of us get rid of or eliminate things in our lives that no longer have a purpose to make room for the new. We’ve become accustomed to lightning-paced technology turnover as we willingly and regularly upgrade to the latest and greatest smartphone on the market.

We, in our plastic and metal world, have become so used to “planned obsolesence” that we now simply accept that in a few years, most of our everyday objects will be outdated and worthless. And we’ve started to see it as a sign of progress … out with the old and in with the new.

Unfortunately, in the natural world, there is no research and development team working on new species to replace the many that are rapidly being extinguished from our planet. New mammal, amphibian, and insect species are not coming online as fast as Apple comes up with a new version of the iPhone.

No, once a species is lost to us, it is gone forever, and with it a critical piece of biological biodiversity, which upsets the balance of an ecosystem forever. There are no replacements or upgrades in the natural world. Each species is integral to the healthy functioning of the whole.

The International Union for Conservation of Nature (IUCN) publishes a yearly “Red List,” which lists most of the threatened and endangered species on the planet.

According to the IUCN, “Currently, there are more than 142,500 species on The IUCN Red List, with more than 40,000 species threatened with extinction, including 41% of amphibians, 37% of sharks and rays, 34% of conifers, 33% of reef-building corals, 26% of mammals and 13% of birds.”

In 2015, IUCN listed Mexico as the country with the most threatened or endangered mammals globally – 101. And of course, that number didn’t include any insect, amphibian, bird, plant, reef coral or reptile species, all of which are included in Mexico’s top threatened species.

In recent years, studies conducted in Mexico have confirmed the vulnerability of the monarch butterfly (insect), the leatherback sea turtle (reptile), the Mexican axolotl salamander (amphibian), the scarlet macaw (bird), elkhorn coral (reef coral), the white nun orchid (plant), in addition to several mammal species including the Mexican grey wolf, the jaguar, the ocelot, the Mexican long-nosed bat, along with dozens and dozens of other lesser-known mammal species here in Mexico.

Just a few months ago, The New York Times ran an article online titled “Here’s the Next Animal That Could Go Extinct,” and yes, that animal only exists in the waters of Mexico. It’s the vaquita, a small ocean porpoise. Only ten are known to be living in the wild, in the waters off the coast of San Felipe, a small fishing village on the Gulf of California.

One of the main reasons Mexico has so many threatened and endangered species is that its diverse landscape translates into high biodiversity. Mexico is number four in the world for the highest number of mammal species, boasting over 500 species. But the sad fact is, nearly a fifth of them are in trouble. Most are threatened because of habitat loss due to clearing to create agricultural land or commercial development.

Many of the species on the “Red List” are collateral damage from commercial activity, such as farming or fishing. Of the 101 species listed in 2015, 60 were rodents. At that time, the San Quinton Kangaroo Rat had not been seen since 1986 and was declared possibly extinct in 1994. However, in 2017 researchers caught one in a survey trap, proving that, while their numbers are small, they are still surviving on Baja California’s coast. That is encouraging news, but one species among nearly 100 just doesn’t seem like a big enough win.

Eighty percent of the threatened or endangered species on the IUNC’s “Red List” for Mexico are endemic, meaning that they do not exist anywhere else in the world in the wild, which means if they go extinct in Mexico, they are gone forever.

In nature, there is no such thing as planned obsolescence; all species strive to survive. It is only a system out of balance that causes extinction. And right now, man’s manipulation of nature is the number one cause of species loss both on land and in the sea. If you’d like to do your part to prevent extinction in your area, support local land conservation efforts and pitch in to keep green spaces clean and safe for all species.

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Who’s Your Daddy?

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By Julie Etra

There is enormous variation in the animal, and even the plant, kingdom when it comes to reproduction. Parenting and sexual roles are an even more complicated topic, with lots of shades of gray. So, let’s start close to home with the fish of the waters, reefs and bays of Huatulco:

Seahorses
The male seahorse gives birth. These animals are found in shallow tropical waters and occur in the reefs around Huatulco. Seahorses aren’t really good swimmers – they swim upright and typically hide in sheltered coral reefs and rocks. They are closely related to pipefish, which swim horizontally, and both have a bony exoskeleton instead of an internal skeletal system. The male has a pouch; when seahorses mate, the female deposits up to 1,500 eggs in this pouch. Incubation takes up to 45 days, and the very small baby seahorses emerge fully developed. The young are released into the water and the male often mates again within hours or days. They are not hermaphrodites, as the sexes are separate and remain so.

And what is hermaphroditism?

A hermaphrodite is “an organism that has complete or partial reproductive organs and produces gametes normally associated with both male and female sexes. Many taxonomic groups of animals do not have separate sexes.” Male gametes are sperm, female gametes are eggs. In summary, they start with full male and female capabilities, and potentially change from one to the other depending on the circumstances, which can be myriad.

Protogynous hermaphrodites are born female and at some point in their lifespan change their sex to male. As the animal ages, it shifts sex and becomes a male animal due to internal or external triggers. Protogyny is more common than protandry, where the male becomes female.

Hermaphroditism is a fairly common occurrence among coral reefs species, particularly the wrasses, parrotfish, gobies, and some species of eels.

Wrasses
These are very common around the reefs of Huatulco; we have the ubiquitous rainbow wrasse, Mexican hogfish, and the distinctive rockcrawler wrasse. Their reproductive strategies are complicated. The rainbow wrasse has two types of males and two methods of reproduction. The Mexican hogfish starts life as a female, and after having achieved a larger size, becomes a functional male. The males gather in groups to perform competitive displays to attract females and defend their reproductive territories; the groups are known as “leks” and the displays as “lekking.” (Other species, notably the sage grouse, also gather in groups to attract their “harems” for mating.)

Parrot fish
We have these fish in the Bahías, but they are not common. If you are snorkeling or scuba diving, you might a crunching sound – the parrot fish are dining on coral. What makes these fish unique is that they can change their sex throughout their lifetime. Primary males are fish that are born male and stay male, while secondary males are males that are born female and become male when they reach sexual maturity.

Gobies
Gobies are members of a very large fish family; their habitat is the shallow waters around the reefs of Huatulco. They have mommies and daddies. Daddies protect the nest from predators, take care of the eggs by fanning the eggs to increase the availability of oxygen, while mommies keep the house nice and tidy. When the females quit their household duties, the eggs are consumed by the males. Some species of gobies can change their sex, and their genitalia will change to follow suit. Sex change can occur over days or weeks and from female to male if the dominant male has died.

Saltwater Eels
We have morays and zebras in our reefs. Some species are hermaphroditic, starting their mature life as males, changing sex later to females, but some are both female and male at the same time.

Clownfish
These fish don’t occur in our reef systems here but they are too interesting to not mention. Made famous by Nemo (not a gender-accurate portrayal!), they live symbiotically with anemones, each helping the other to survive and thrive. The sea anemone protects the clownfish from predators and provides food. The clownfish in turn defends the anemone from its predators and parasites. Clownfish schools are female dominated; the females carry both female and male reproductive organs.

The large female fish is dominant, but upon her death the dominant male gains weight and changes sex. While she is still in charge, she mates only with the breeding male. The rest of the community comprises sexually immature males, or ‘”bachelors.” Changing sex is determined by hormones that cause the testes to disappear and trigger the development of the ovaries. Parenting? Both the male and the female maintain and guard the eggs once they are laid by the female.

Anglerfish
Here is another super odd one, a species that does not occur on our beautiful coast, but is just too interesting not to mention – the anglerfish. To get a look at them in action, go to http://www.livescience.com/48885-rare-anglerfish-video-footage.html.

These fish dwell at great depths, below 984 feet, in Monterey Canyon off the central coast of California. The male is tiny compared to the female. Once he finds a willing female the male bites and latches on to her belly. Their tissues fuse, the male wastes away, and all systems become one. The male’s only purpose is to provide sperm, while the host female becomes a bizarre self-fertilizing hermaphrodite.

For plants, the phenomenon of no mommies or daddies needed is perhaps more common than you might realize.

Succulents
These include Hens and Chicks and Mothers of Thousands. These easy to grow succulents are very common in gardens and nurseries around Huatulco, as well as higher up in temperate climates, including San José del Pacifico, well above Pochutla on the route up the mountains to Oaxaca. Although they flower and can produce seed, they more commonly produce new plants with their own root systems, e.g. vegetative reproduction. Thanks to some local friends, I have a lovely Mother of Thousands in our Huatulco garden. It is also known as the “devil’s backbone,” “alligator plant,” or “Mexican hat plant,” and is native to Madagascar. Each plantlet has its own root system, ready to drop off from the momma/poppa plant and establish a new plant.

Cactus
We all know the Nopal plant, of which there are many types in Mexico and the southwest United States. Also known as prickly pears, these cacti prefer warm, dry or seasonally wet climates like our own selva seca (seasonally dry tropical forest). They also produce a fruit, known as a “tuna” (one of the delicious flavors of the shaved-ice nieves available in the Huatulco Organic Market). The tuna contains seeds which readily geminate. But the big pads, called pencas, that are sliced and diced and commonly cooked in Mexican cuisine, can become detached and roll downhill, or attach to and detach from cattle and wildlife, and establish new roots at the base of the penca – hence new plants, no seeds. Voila.

Papayas
Ah papayas, that yummy tropical fruit, whose origin is the southern coast of Mexico, have male and female flowers on separate plants, but also both on the same plant. The male plant actually possesses female parts but they are not fully developed or functioning. However, with rising temperatures the plant can generate a fruit-producing female. Female plants can produce fruit, with seed if pollinated, or without seed if not pollinated (think unfertilized chicken eggs).

Hermaphroditic papaya flowers have both functional male and female flowers. They are capable of producing fruit and don’t require pollination. However, like male papayas, they can change gender. They may switch to being male during hot weather, or to female after being topped.

Despite our expectations of neat and not-so-neat nests filled with eggs, and mommies and daddies hatching the eggs and feeding the squawking hatchlings, there are species that do not really share parenting, and there might even be a few instances of hermaphroditic reproduction.

Cassowaries
These large, colorful, flightless birds are native to Australia and are related to emus and ostriches. The cassowary breeding season occurs in May and June when the male prepares the nest, which consists of a pile of leaves and other debris, and the females lay three to eight large eggs. The male then sits on the nest for 50-52 days, adding or deleting litter in order to regulate the nests’ temperature. After the chicks emerge, they remain in the nest for about nine months while daddy protects them. The female is not involved in raising the chicks, rather going off to lay more eggs in the nests of several other males.

Chickens
And last, hens turning into roosters? Is this possible? Even in Huatulco? Apparently very rare, but it has been documented. Consider the case of Gertie the hen, who hailed from England. In 2011 she suddenly stopped laying eggs, grew a characteristic rooster comb, and began acting like a rooster. This is due to the unique physiology of chickens. They have one ovary and an undeveloped sex organ that can become a testicle or an ovary but remains dormant unless environmental triggers and subsequent male hormone production result in its morphing into a rooster appearance. Although it cannot reproduce, it develops behavior characteristic of roosters, including aggressive territorial behavior and crowing at dawn. (Of course, if you’ve ever raised chickens, you know they crow at dawn, midnight, lunchtime, whenever they damn well feel like it!)

“Variety is the spice of life,” ain’t it grand?!