Human Influences on Evolution

There is a definitive need, at all science education levels, to strongly emphasize the central anthropogenic role humans now play in current evolutionary processes and biosphere impact. This article presents a brief overview of recent human activities; broad examples of the impact of human activities on biological evolution; a general overview and specific examples of incorporating human activities into evolution education; and further online anthropogenic resources that can be incorporated into educational settings.

A Brief Overview of Recent Human Activities

The number of humans on Earth at any one time has grown astronomically over the last two 250 to 300 years. Two thousand years ago, there were 300 million humans on Earth. One thousand years ago, there were 310 million humans on Earth, and 260 years ago, there were 790 million humans on Earth. In the last 260 years, the human population has increased by 6.1 billion people. Currently, there are 6.9 billion humans on Earth, and the human population is projected to be 9.3 billion by 2050.

Humans have become the greatest geophysical force on Earth. We currently use more than half of all accessible fresh water and between a third and half of all land on Earth. We have built reservoirs that hold from three to six times as much water as in natural rivers, and we now move more soil, rock, and sediment than all natural processes combined. We use more nitrogen fertilizer than is fixed in all natural terrestrial ecosystems and produce more nitric oxide than all natural sources combined.

During the last century, human energy use has grown sixteen fold, “causing 160 million tones of atmospheric sulphur-dioxide emissions per year, more than twice the sum of its natural emissions”. Global fossil fuel emissions increased 41% from 1990 to 2008 and 29% from 2000 to 2008, increasing atmospheric CO2 to its highest levels in 15 million years and driving global warming, rising sea levels, and climate change. Through construction and agriculture, humans have caused a dramatic increase in global erosion and the denudation of continents. This increase in erosion now exceeds natural sediment production by an order of magnitude. Based on global human consumption rates, the global human ecological footprint exceeded Earth’s biocapacity in the mid to late 1980s and “now exceeds the planet’s regenerative capacity by about 30 percent. This global overshoot is growing and, as a consequence, ecosystems are being run down and waste is accumulating in the air, land and water.”

Races of Humans
Broad Examples of the Impact of Human Activities on Biological Evolution

On a smaller scale, human activities influence the evolution of organisms such as agricultural pests, agricultural weeds, and bacteria. Humans continually develop and apply new pesticides to control agricultural pests and new herbicides to control agricultural weeds. In 2000, humans used 700 million pounds of pesticide in the United States alone. Typically, within ten years after the introduction of a newly developed pesticide, insects evolve resistance to this new compound. In some cases, agricultural pest species have evolved resistance to so many pesticides that control is futile.

Analogous evolutionary outcomes are observed in agricultural weeds that often evolve resistance within ten to 25 years of the application of a newly developed herbicide. Similar trends of human-induced evolution are also observed in bacteria when inefficient use of antibiotics drives evolution, making human disease-causing bacteria resistant to many antibiotics. Some of these inefficient uses driving bacterial evolution include overprescribing antibiotics and not completing a course of antibiotics. Further human-induced evolution of bacteria occurs in livestock production where evolved resistance is also observed.

Beyond what is observed in agricultural pests, agricultural weeds, and bacteria, far more profound large-scale human-induced evolutionary consequences are under way, with 65% of global aquatic river habitat under moderate to high threat. Approximately two thirds of all organisms occur in the tropics, mainly in tropical humid forests, and more than half of the tropical humid forests on Earth have been destroyed. At the current rate of destruction, it is estimated that the remaining tropical humid forests and the organisms they contain will be destroyed by 2060, putting an end to these species’ long evolutionary histories.

Based on anthropogenic activity over the past 250 to 300 years, humans have accelerated global species extinction rates 100 to 1,000 times that of Earth’s historical geological background rate, ushering in the sixth great mass extinction in evolutionary history. Future extinction rates, based on computer modeling, are projected to be 10,000 times Earth’s historical geological background rate. Considering these ever-increasing anthropogenic activities as a whole, there is a high probability that complex major evolutionary radiations have been and will be lost in the near future.

As with the current great mass extinction, the evolution of life on Earth has been greatly influenced by past mass extinctions. After all five past great mass extinctions (i.e., Ordovician-Silurian Extinction (circa 439 MYA); Late Devonian Extinction (circa 364 MYA); Permian-Triassic Extinction (circa 251 MYA); End Triassic Extinction (circa 199–214 MYA); Cretaceous-Tertiary Extinction (circa 65 MYA); very slow recovery was facilitated by the evolution of new species instead of the re-expansion of the survivors. If the last five great mass extinctions are any indication of what will occur after the current human-induced mass extinction, it can be expected that “evolutionary processes would not generate a replacement stock of species within less than several million years.”

A General Overview and Specific Examples of Incorporating Human Activities into Evolution Education

The degree to which humanity, as a species, has impacted biological evolution and the biosphere has been made evident by science. Yet this science is surprisingly missing from most science curricula, state science educational standards, and national science educational standards at almost any educational level except for scant examples of evolutionary change in bacteria (e.g., inefficient use of antibiotics) and RNA viruses (e.g., the need for new seasonal influenza vaccine every year). There is a definitive need at all science educational levels to strongly emphasize the central anthropogenic role humans now play in current evolutionary processes and biosphere impact.

One of the ways to highlight this content is by incorporating free online anthropogenic research and anthropogenic research reports, such as the World Wide Fund for Nature (WWF) and the Millennium Ecosystem Assessment (MEA), into current science classroom curriculum. For example, science educators can begin to address and emphasize many specific anthropogenic evolution questions with their students by using five of the most ecologically devastating and far-reaching anthropogenic direct drivers that currently affect global biodiversity and species evolution: (1) habitat modification, fragmentation, and destruction; (2) overexploitation of species; (3) the spread of invasive species and genes; (4) pollution; and (5) climate change.

Examples of activity-driven questions from WWF and MEA reports may include but are not limited to: When humans modify, fragment, or destroy habitats, how does this affect gene flow and genetic drift of a species? What is the relationship between human overexploitation of a species, its evolutionary fitness, and its gene pool variability? What does human-induced extinction do to a species’ evolutionary history? How does anthropogenic pollution impact biological evolution? What role do human-induced invasive genes play within evolution? How do human-induced invasive species impact coevolution?

Further free online anthropogenic resources are listed in the bibliography. These resources have the potential for the development of many question-driven activities that address the current impact human activities are having on biological evolution.

Inquiry-learning pedagogy (e.g., scientific inquiry; problem-based learning; 5E learning cycle, and instructional model) that is integrated with technology (e.g., TOXMAP and Google Earth) should be used to allow students to fully investigate these evolution questions and also to fully understand the complexity of the environmental issues and problems humanity currently faces and will face in the next 50 to 100 years. When possible, field trips should also be taken to local sites that have been impacted by human activities. Students can collect data assessing the level of anthropogenic change and discuss the impact that these human activities may have or have had on local species evolution and the ecosystem in general. Anthropogenic field trips bring a sense of authenticity to the educational experience by allowing students to experience first-hand the environmental degradation occurring where they live. These experiences can then be brought back to the classroom for further in-depth discussion.

Beyond a focus on integrated science content (i.e., humanity’s impact on biological evolution and the biosphere), inquiry-learning pedagogy integrated with technology, and the use of local anthropogenic field trips, question-driven activities should place special emphasis on how humanity can begin to decelerate the anthropogenic trajectory we are currently on. This issue can be investigated by exploring the two main overarching factors driving present global environmental degradation: the size and the natural resource consumption rate of the human population. These question-driven activities should also be framed by the understanding that as a general trend, the highest per capita human natural resource consumption rate is occurring in the more developed countries and that the greatest human population growth is occurring in the less developed countries. Emphasis should also be placed on examples of the development and implementation of more efficient and more environmentally sustainable human activities coupled with an awareness that an individual in a more developed country such as the United States consumes much more natural resources per capita than an individual in a less developed country. Therefore, directly or indirectly, an individual in a more developed country causes much more environmental degradation than an individual in a less developed country. Lastly, special emphasis should also be placed on how humanity, the collective students of the class, the teacher, and the individual student can ethically and equitably begin to reduce both of these overarching factors by changing current behaviors.

Domesticated Sheep
Conclusion

Clearly, the past, present, and future activities of humans have and will increasingly change and end by extinction the evolutionary history of many species. The degree to which these future evolutionary changes and extinctions will occur is uncertain. Education may be a mechanism that can play a role in beginning to slow the anthropogenic activities that are directly and indirectly impacting global organismal evolution. To this end, there is a need for those in evolution education, environmental education, and science education in general to develop curricula that address and strongly emphasize the ever-increasing impact humans are having on the evolution of other organisms and on the biosphere.

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