Glossary

Regenerative: As opposed to "sustainable," which defines a system that merely remains constant over a period of time, "regenerative" refers to continuously renewing systems that create synergies to propel growth and complexity. In other words, a regenerative system basically takes care of itself with minimal human intervention.

Regenerative Agriculture (or Farming): A broad term encompassing farming systems that strive to create ecosystem-enhancing cycles. In contrast to organic farming which is defined by the absence of chemical inputs, regenerative agriculture is defined by its ability to enhance soil fertility, carbon drawdown, healthy water cycles, biodiversity, and nutrient density. 

While regenerative agriculture is a modern concept, it has deep roots in the traditional agroecology practiced by indigenous and peasant farmers around the world.

Agroforestry: A type of regenerative agriculture system where people design and plant multilayered gardens that mimic a natural forest in structure, succession, and complexity. In contrast to a one-dimensional farm where all of the crops exist on one level, an agroforestry farm employs a diversity of trees, shrubs, vines, ground hugging plants, and roots to produce a variety of useful yields including food, animal fodder, mulch, natural fibers, and building material. 

Each plant in an agroforestry system is chosen for a specific purpose based on relationships observed in nature. For example, traditional cacao agroforestry systems employ tall banana plants to shade and shelter shorter cacao trees, which in turn shade and shelter smaller plants like turmeric. Inga trees serve to fix nitrogen in the soil and provide support for vining crops like chayote. Inter-relationships between plants, animals, insects and microbes create synergies which sustain the system without external inputs.

Extractive: Not a type of agriculture, but a term often used to describe a method like industrial agriculture that "takes" from soil by killing off microbe populations and collapsing structure and doesn't have a sustainable way to replenish what it takes.

Biodiversity Hotspot: To qualify as a biodiversity hotspot, an area must meet two strict criteria:

• Contain at least 1,500 species of vascular plants found nowhere else on Earth (known as "endemic" species).

• Have lost at least 70 percent of its primary native vegetation. 

https://www.cepf.net/our-work/biodiversity-hotspots/hotspots-defined

Around the world, 36 areas qualify as hotspots. Their intact habitats represent just 2.5 percent of Earth’s land surface, but they support more than half of the world’s plant species as endemics — i.e., species found no place else — and nearly 43 percent of bird, mammal, reptile and amphibian species as endemics.

Biodiversity underpins all life on Earth. Without species, there would be no air to breathe, no food to eat, no water to drink. There would be no human society at all. And as the places on Earth where the most biodiversity is under the most threat, hotspots are critical to human survival.

Cloud Forest: Also called montane rainforest; vegetation of tropical mountainous regions in which rainfall is often heavy and condensation is persistent because of the cooling of moisture-laden air currents deflected upward by the mountains. Cloud forests typically are found at altitudes between 1,000 and 2,500 meters (3,000 and 8,000 feet), and a layer of clouds at the canopy level is common year-round. Because of sensitivity to local climatic conditions, elevation, and distance from the sea, cloud forest ecosystems are not common globally. They are found in Central and South America, southern Mexico and parts of the Caribbean, Southeast Asia, eastern Africa, and New Guinea. In 2022 only an estimated 1 percent of global woodlands were cloud forests, compared with 11 percent in the 1970s—a decline due to global warming, deforestation, and other conditions related to human activities.

Source: https://www.britannica.com/science/cloud-forest-ecology