Black Maple vs Cloud Forest Akodont

Acer nigrum compared with Akodon torques

Taxonomic Classification

Rank Black Maple Cloud Forest Akodont
Kingdom Plantae (Plants) Animalia (Animals)
Phylum Magnoliophyta (Flowering Plants) Chordata (Chordates)
Class Magnoliopsida (Dicots) Mammalia (Mammals)
Order Sapindales (Sapindales) Rodentia (Rodents)
Family Sapindaceae Cricetidae
Genus Acer Akodon
Species Acer nigrum Akodon torques

Conservation Status

Black Maple

LC — Least Concern

Cloud Forest Akodont

LC — Least Concern

Physical Characteristics

Attribute Black Maple Cloud Forest Akodont
Diet
Average Lifespan
Average Length
Average Weight

Habitat & Geographic Range

Black Maple

Habitat

Typically found in diverse terrestrial habitats from tropical forests to temperate regions.

Range

Distributed across Canada and United States.

Cloud Forest Akodont

Habitat

Typically found in diverse terrestrial and aquatic ecosystems.

Black Maple

The Black Maple (Acer nigrum) is a species in the genus Acer. It is currently classified as Least Concern on the IUCN Red List. Typically found in diverse terrestrial habitats from tropical forests to temperate regions.

Cloud Forest Akodont

Cloud forest akodonts are small rodents in the genus Akodon (family Cricetidae, subfamily Sigmodontinae) adapted to the cool, moist cloud forests of the Andean mountain chain in South America. These small mice, typically 15–25 g body weight, are among the most diverse rodent genera in the Neotropics, with dozens of species occupying a range of habitats from tropical lowland forest to high-elevation grasslands and cloud forest margins. Cloud forest species live in mossy, fern-rich undergrowth at elevations typically between 1,500 and 3,500 meters, where they forage for seeds, fungi, invertebrates, and plant material among dense vegetation and under fallen logs. Akodonts are important prey species for forest raptors, small cats, and mustelids, and serve as seed dispersers in cloud forest ecosystems. Many cloud forest akodont species have restricted ranges tied to specific elevation bands on individual mountain ranges, making them vulnerable to climate change-driven upslope habitat shifts that compress available habitat and may eventually eliminate suitable conditions on mountains of insufficient height.

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