Ecology and biodiversity
Biodiversity: the variety of natural life and habitats on Earth.
Ecology: the scientific study of the processes influencing natural life and habitats.
We need to build and restore our ecological network. Due to the actions of humans, ecosystems across the planet are collapsing. Mass extinction is becoming an everyday occurrence. The government has announced that it will be monitoring biodiversity net gain development. This includes various mechanisms to try and rebuild an ecological network and prevent further losses. Changing the way we act and use our environment is urgent. It is also an exciting opportunity for us to increase our understanding of the landscape of Eden. Reconnecting human life to its ecosystems will allow us to become sustainable. Conservation projects, such as wildlife bridges, result in better social and economic outcomes too. It is time to rebuild the garden of Eden.
There is 326 million trillion gallons of water on our planet. It seems strange that water should be such a scarce resource, but less than one half of 1 percent of it is drinkable. Out of the rest, 98 percent is oceanic salt water and 1.5 percent remains locked up in icecaps and glaciers. The small percentage we can consume we call freshwater.
92% of freshwater we use in industrial agricultural production - you eat more water than you drink. The main reason for this is our diets: heavy in water-intensive meat and crops like soy. These subsidised foods make up a ridiculous percentage of global food production. Sprinkler irrigation also needs revising. It is only 30–40% efficient, meaning that industrial farmers must double or even triple the amount of water. 70% of this water then evaporates or is otherwise wasted, never making it into crops.
Some countries have already been facing water shortages for decades. With the growing global population, the rising temperatures and the lack of effort to change our wasteful practices, freshwater shortages are becoming a reality across the whole globe.
Some scientists have made the apocalyptic prediction that we have only 60 harvests left. Demand for agricultural commodities has increased. This means we convert more forests and grasslands to farm fields and pastures. This transition to agriculture from natural vegetation often depletes soil. Many agricultural plants then increase soil erosion even further. Half of the topsoil on the planet has gone in the last 150 years.
Other aspects of agriculture also affect soil quality. These impacts include compaction, loss of soil structure, nutrient degradation, and soil salinity. The effects of soil erosion go beyond the loss of fertile land. It increases pollution and clogs waterways, causing declines in fish and other species. Degraded lands are also often less able to hold onto water, which can worsen flooding. Sustainable land use can help to reduce the impacts of agriculture and livestock.
Depletion of resources
'Money does not grow on trees' is a phrase dating back to the 19th century. It has never felt more real. As our resources decline we must turn to sustainable alternatives for everyday modern life appliances. Below is a forecast of when we will run out of each metal:
- Oil - 2045 /2051
- Coal - 2055 /2136
- Gas - 2048 /2073
- Uranium - 2041 /2081
- Antimony - 2020 /2023
- Lead - 2025 /2029
- Indium - 2029 /2036
- Rare Earths - 2088 /2856
- Zinc - 2025 /2031
- Silver - 2029 /2032
- Gold - Production is declining 2031
- Copper - 2039 /2049
(If production continues to grow / if production becomes static).
Plants encompass pretty much all things we eat, wear and use. Climate change affects many wild plants and their habitats, causing them to decline often to the point of extinction. This has a knock-on effect across the ecosystem. For example, the netted carpet moth relies completely on touch-me-not balsam to survive. This native moth is one of the rarest in the Lake District, but due to conservation efforts its population is now increasing. The introduction of invasive species is one the main causes of the moth's decline. Other causes of habitat destruction include the growing of biofuels and afforestation programmes. We must increase our knowledge, assess our impact and increase conservation efforts. Restoration of wild plant habitats can help reduce CO2 emissions. Earth's habitats also provide cost-effective ways to control flooding and erosion. We must look after our planet so it can look after us.
The climate and ecological crisis is not only affecting us, but all the creatures we share our planet with. Humans' disruption and destruction of animal habitats across the globe is causing mass extinction on an extreme level. It is possible to rebuild the resilience of the ecosystems surrounding us. We must become a force within nature, rather than against it, taking only what we need and living alongside our neighbours.
Healthy ecosystems have features that protect them against environmental change. These features include genetic diversity, ecosystem connectivity, and widespread geographical distribution of populations. A diverse gene pool ensures that some members of a species will possess traits that will allow them to survive change. Habitat connectivity ensures that relocation is in reach for distressed individuals. A wide-spread population is less vulnerable to local disturbance.
In Britain, we have already seen the extinction of many animals, such as Lynx, Wolves and even Bears. Beavers and sea eagles are a recent success story of reintroduction. The positive effects of this on our ecosystem are tremendous. Owls, pine martins and dormice are some of the animals that now face extinction. Water voles, red squirrels and great crested newts in particular are something we can focus on local to Eden. We can make a difference.
See the Cumbria Biodiversity Evidence Base on the Cumbria Biodiversity Data Centre website to discover more about the current state of Cumbria's biodiversity.