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TERRESTRIAL BIOMES Introduction Biomes are the major regional groupings of plants and animals, discernible at a global scale. distribution patterns are correlated with regional climate patterns and identified according to the climax vegetation type. a biome is composed not only of the climax vegetation, but also of immature communities To understand the nature of biomes one needs to learn: 1) Global distribution pattern Where each biome is found and how each varies geographically. A given biome may be composed of different taxa on different continents. To understand the nature of biomes one needs to learn 2) The dominant, characteristic, and unique growth forms vertical stratification leaf shape, size, and habitat special adaptations of the vegetation To understand the nature of biomes one needs to learn 3) The types of animals (especially vertebrates) characteristic of the biome. Their typical morphological, physiological, and/or behavioral adaptations to the environment Major Biomes Deserts (Tropical, Temperate, Polar) Forests (Tropical and Temperate) Grasslands (Tropical, Temperate, Polar) Aquatic (Ch. 7) Deserts Deserts cover about one-fifth of the Earth’s surface and occur where rainfall is less than 50 cm/year. Most deserts occur at low latitudes. Cold deserts occur in the basin and mountain ranges (leeward side of the mountain) Most deserts have a considerable amount of specialized vegetation, as well as specialized vertebrate and invertebrate animals. Deserts Soils often have abundant nutrients because they need only water to become very productive and have little or no organic matter. Soils are course-textured, shallow, rocky or gravely with good drainage and have no subsurface water They are coarse because there is less chemical weathering Disturbances are common in the form of occasional fires or cold weather, and sudden, infrequent, but intense rains that cause flooding. Types of Deserts Hot and Dry (Tropical) Semiarid (temperate) Cold (polar) Hot and Dry Desert Temperature Desert surfaces receive a little more than twice the solar radiation received by humid regions and lose almost twice as much heat at night. Many mean annual temperatures range from 2025° C The extreme maximum ranges from 43.5-49° C. Minimum temperatures sometimes drop to -18° C Hot and Dry Desert Precipitation Rainfall is usually very low and/or concentrated in short bursts between long rainless periods Evaporation rates regularly exceed rainfall rates Sometimes rain starts falling and evaporates before reaching the ground Rainfall is lowest on the Atacama Desert of Chile, where it averages less than 1.5 cm Inland Sahara also receives less than 1.5 cm a year Rainfall in American deserts is higher—almost 28 cm a year Hot and Dry Desert Plants Canopy in most deserts is very rare Plants are mainly ground-hugging shrubs and short woody trees Leaves are “replete” (fully supported with nutrients) with water-conserving characteristics- succulents They tend to be small, thick and covered with a thick cuticle (outer layer) In the cacti, the leaves are much-reduced (to spines) and photosynthetic activity is restricted to the stems Some plants open their stomata (microscopic openings in the epidermis of leaves that allow for gas exchange) only at night when evaporation rates are lowest Hot and Dry Desert- Vegetation Yuccas Ocotillo Turpentine bush Prickly Pears False mesquite Sotol Ephedras Agaves Brittlebush Hot and Dry Desert Animals The animals include small nocturnal (active at night) carnivores The dominant animals are burrowers and kangaroo rats There are also insects, arachnids, reptiles and birds The animals stay inactive in protected hideaways during the hot day and come out to forage at dusk, dawn or at night, when the desert is cooler Snakes Lizards Tortoise Bighorn Sheep Coyote Tarantula Ants Tarantula Wasp Semiarid Desert- Temperate Temperature The summers are moderately long and dry, and like hot deserts, the winters normally bring low concentrations of rainfall Summer temperatures usually average between 21-27° C It normally does not go above 38° C and evening temperatures are cool, at around 10° C. Semiarid Desert Precipitation Cool nights help both plants and animals by reducing moisture loss from transpiration, sweating and breathing Condensation of dew caused by night cooling may equal or exceed the rainfall received by some deserts As in the hot desert, rainfall is often very low and/or concentrated The average rainfall ranges from 2-4 cm annually. Semiarid Desert Plants The spiny nature of many plants in semiarid deserts provides protection in a hazardous environment The large numbers of spines shade the surface enough to significantly reduce transpiration Many plants have silvery or glossy leaves, allowing them to reflect more radiant energy These plants often have an unfavorable odor or taste. Semiarid Desert Creosote bush Bur sage White thorn Cat claw Mesquite Brittle bushes Lyciums Jujube Semiarid Desert Animals During the day, insects move around twigs to stay on the shady side; jack rabbits follow the moving shadow of a cactus or shrub Naturally, many animals find protection in underground burrows where they are insulated from both heat and aridity Semiarid Desert Kangaroo rats Rabbits Skunks Side-blotched Lizard Mountain Lion Rattlesnake Burrowing owls Western Bluebird Cold Desert Temperature Cold winters with snowfall and high overall rainfall throughout the winter and occasionally over the summer Antarctic, Greenland and the Arctic short, moist, and moderately warm summers with fairly long, cold winters mean winter temperature is between -2 to 4° C and the mean summer temperature is between 21-26° C Cold Desert Precipitation winters receive quite a bit of snow mean annual precipitation ranges from 15- 26 cm annual precipitation has reached a maximum of 46 cm and a minimum of 9 cm heaviest rainfall of the spring is usually in April or May rainfall can be heavy in autumn in some areas Cold Desert Soil heavy, silty, and salty relatively porous and drainage is good so that most of the salt has been leached out Cold Desert Plants/ Vegetation widely scattered, short ground cover about 10 % of the ground is covered some areas of sagebush it approaches 85 % Lichens (algae/fungi) Mosses and algae Cold Desert Lichens Bryophytes Antarctic Algae Snow Algae Kelp Cold Desert Animals Terrestrial animal rely on phytoplankton from marine environments as the base of the food chain. Cold Desert Temperate Desert food web Grasslands characterized as lands dominated by grasses rather than large shrubs or trees largest land animals due to huge vegetation There are two main divisions of grasslands tropical grasslands called savannas (Africa) pampas (S. America) or veldts (Australia) temperate grasslands – prairies ** TEMPERATE SHRUBLAND – chaparral ; found in between coastal deserts and temperate grasslands Tropical Grasslands: Savanna Savanna is grassland with scattered individual trees Climate is the most important factor in creating a savanna – dry and rainy seasons Fires are important to maintain a savanna Tropical Grasslands: Savanna Tropical Grasslands: Savanna Precipitation always found in warm or hot climates where the annual rainfall is from about 50.8 to 127 cm (20-50 inches) per year crucial that the rainfall is concentrated in six or eight months of the year, followed by a long period of drought when fires can occur Tropical Grasslands: Savanna Soils porous, with rapid drainage of water only a thin layer of humus (the organic portion of the soil created by partial decomposition of plant or animal matter), which provides vegetation with nutrients Tropical Grasslands: Savanna Plants characterized by a continuous cover of perennial grasses, often 3 to 6 feet tall at maturity may or may not also have an open canopy of drought-resistant, fireresistant, or browse-resistant trees, or they may have an open shrub layer Tropical Grasslands: Savanna Animals When the rains come, savanna bunch grasses grow vigorously larger grasses may grow an inch or more in 24 hours a surge of new life at this time For example, many antelope calves are born and with so much grass to feed on, mothers have plenty of milk; calves die if the rains fail to come. Tropical Grasslands: Savanna Animals do not all occur in the same savanna giraffes, zebras, buffaloes, kangaroos, mice, moles, gophers, ground squirrels, snakes, worms, termites, beetles, lions, leopards, hyenas, and elephants Giraffes Zebras Water buffaloes Cheetah Crocodile Meerkats Hyenas Baboon Wild Dog Lions Elephants Ants Termites Leopards Rhinoceros Temperate Grassland Grasses as the dominant vegetation with trees and large shrubs absent seasonal drought and occasional fires are very important to biodiversity. effects aren’t as dramatic in temperate grasslands as they are in savannas Temperate Grassland Precipitation usually occurs in the late spring and early summer annual average is about 50.8 to 88.9 cm (20-35 inches). Temperate Grassland Temperate Grassland Temperate Grassland Temperature range is very large over the course of the year summer temperatures can be well over 38° C (100 degrees F) winter temperatures can be as low as 40° C (-40 degrees F) Temperate Grassland Soil deep and dark, with fertile upper layers nutrient-rich from the growth and decay of deep, many-branched grass roots rotted roots hold the soil together and provide a food source for living plants Temperate Grassland Plants different species of grass grows best in a particular grassland environment seasonal drought, occasional fires, and grazing by large mammals all prevent woody shrubs and trees from invading and becoming established a few trees, such as cottonwoods, oaks, and willows grow in river valleys, and some nonwoody plants, specifically a few hundred species of flowers, grow among the grasses Temperate Grassland Purple needlegrass Blue Grama Buffalo grass Asters Coneflowers Sunflowers Goldenrods Clovers Temperate Grassland Animals Mostly grazers wild horses, wolves, prairie dogs, rabbits, deer, mice, coyotes, foxes, skunks, badgers, blackbirds, meadowlarks, quails, sparrows, hawks, owls, snakes, grasshoppers, leafhoppers, and spiders Tundra: Polar Grassland comes from the Finnish word tunturia, meaning treeless plain frost-molded landscapes extremely low temperatures little precipitation poor nutrients short growing seasons Tundra: Polar Grassland Tundra: Polar Grassland Tundra: Polar Grassland Temperature growing season ranges from 50 to 60 days average winter temperature is -34° C (-30° F) average summer temperature is 3-12° C (37-54° F) which enables this biome to sustain life Tundra: Polar Grassland Precipitation may vary in different regions of the arctic yearly precipitation, including melting snow, is 15 to 25 cm (6 to 10 inches) Tundra: Polar Grassland Soil formed slowly layer of permanently frozen subsoil called permafrost exists, consisting mostly of gravel and finer material when water saturates the upper surface, bogs and ponds may form, providing moisture for plants no deep root systems in the vegetation of the arctic tundra, however, there are still a wide variety of plants that are able to resist the cold climate Tundra: Polar Grassland Plants There are about 1,700 kinds of plants in the arctic and subarctic adapted to sweeping winds and disturbances of the soil short and group together to resist the cold temperatures and are protected by the snow during the winter carry out photosynthesis at low temperatures and low light intensities growing seasons are short and most plants reproduce by budding and division rather than sexually by flowering low shrubs, sedges, reindeer mosses, liverworts, and grasses, lichens Tundra Animals Strategies evolved to withstand the harsh conditions of the tundra (example: fur changes color to camouflage during seasons) Can be divided into resident and migratory animal groups. Tundra: Polar Grassland Resident Animals small number of birds and mammals (e.g., musk ox, arctic hare, arctic fox) Morphological adaptations large, compact bodies a thick insulating cover of feathers or fur pelage and plumage that turns white in winter, brown in summer Physiological adaptations ability to accumulate thick deposits of fat during the short growing season insulation and as a store of energy for use during the winter, when animal species remain active Population adaptations cyclical fluctuations in population size, best seen perhaps in the lemming, a small rodent which is the major herbivore in the tundra's simple food chain predator populations and plant populations respond in kind to the peaks and crashes of the herbivore populations Tundra: Polar Grassland Migratory species such as waterfowl, shorebirds and caribou adapt to the tundra by avoiding the most severe conditions of winter each year at the end of the short growing season they move southward into the boreal forest or beyond, but return to the tundra to breed due to the long growing season Tundra animals Siberian Lynx Musk ox Ermine (summer and winter) Reindeer Temperate Shrubland- Chaparral Temperate conditions with characteristics in between a coastal desert and temperate grassland. Slightly longer rainy season Dense growth of low-growing evergreen shrubs and small trees Long, hot dry summers are susceptible to forest fires. Fires help reduce overgrowth of vegetation and periodic fires are maintained by parks services regularly. Adaptations include fire resistant roots and seeds that sprout only under extreme heat. Location: southern California and Mediterranean Animals: similar to desert rodents, small herbivores and insects. FORESTS occupy approximately one-third of Earth’s land area account for over two-thirds of the leaf area of land plants contain about 70% of carbon present in living things are major casualties of deforestation, pollution, and industrial usage forest biomes are classified according to numerous characteristics, with seasonality being the most widely used. Types of Forests Tropical Temperate Boreal forests (taiga) Tropical Forests are characterized by the greatest diversity of species. occur near the equator, within the area bounded by latitudes 23.5 degrees N and 23.5 degrees S distinct seasonality: winter is absent only two seasons are present (rainy and dry) The length of daylight is 12 hours and varies little. Tropical Forests Tropical Forests Tropical Forests Temperature average 20-25° C and varies little throughout the year the average temperatures of the three warmest and three coldest months do not differ by more than 5 degrees Tropical Forests Precipitation evenly distributed throughout the year annual rainfall exceeds 2 meters Tropical Forests Soil nutrient-poor and acidic decomposition is rapid subject to heavy leaching Tropical Forests Plants Stratification of tree layers Emergent layer Canopy Understory Shrub layer Ground layer Flora is highly diverse one square kilometer may contain as many as 100 different tree species Trees are 25-35 m tall buttressed trunks and shallow roots mostly evergreen, with large dark green leaves. Tropical Forests Plant Adaptations ability to tolerate constant shade adapt strategies to reach sunlight; intense competition! Epiphytes Tropical Forests Epiphytes (grow on another plant) Ferns Moss Curare Palms Tropical Forests White-faced Monkey Tree frog Toucan Vine Snake Gecko Vested Anteater Transparent butterfly Jaguar Unicorn grasshopper Red-eyed tree frog Silver-throated Tanager Tropical king snake Scorpion Temperate Forest Temperature Well-defined seasons, with a distinct winter, characterize this forest biome Moderate climate and a growing season of 140-200 days during 4-6 frost-free months distinguish temperate forests Temperature varies from -30° C to 30° C. Temperate Forest Temperate Forest Temperate Forest Precipitation (75-150 cm) is distributed evenly throughout the year Soils fertile, enriched with decaying litter Temperate Forest Plants Canopy moderately dense allows light to penetrate resulting in well-developed and richly diversified understory vegetation and stratification of animals Flora is characterized by 3-4 tree species per square kilometer Trees are distinguished by broad leaves that are lost annually (deciduous trees) Temperate Forest Oak Hickory Beech Hemlock Maple Basswood Elm Willow Spring-flowering herbs Black Bear Gray Squirrel Raccoon White-tailed Deer Cardinal Turkey Yellow-bellied Sapsucker Rat Snake Temperate Forest Temperate Forest Further subdivisions of this group are determined by seasonal distribution of rainfall: moist conifer and evergreen broad-leaved forests: wet winters and dry summers (rainfall is concentrated in the winter months and winters are relatively mild) dry conifer forests: dominate higher elevation zones; low precipitation. Mediterranean forests: precipitation is concentrated in winter, less than 1000 mm per year temperate coniferous: mild winters, high annual precipitation (greater than 2000 mm) temperate broad-leaved rainforests: mild, frost-free winters, high precipitation (more than 1500 mm) evenly distributed throughout the year Only scattered remnants of original temperate forests remain Temperate Rain Forest Boreal forests, or taiga represent the largest terrestrial biome Occurs between 50 and 60 degrees north latitudes seasons are divided into short, moist, and moderately warm summers and long, cold, and dry winters length of the growing season in boreal forests is 130 days Boreal forests, or taiga Boreal forests, or taiga Temperatures are very low Precipitation is primarily in the form of snow, 40-100 cm annually Soil is thin, nutrient-poor, and acidic Canopy permits low light penetration, and as a result, understory is limited Boreal forests, or taiga The conical shaped needle leaf trees common to the taiga are adapted to the cold and the physiological drought of winter and to the short-growing season: Conical shape - promotes shedding of snow and prevents loss of branches. Needleleaf – narrow shape reduces surface area (transpired), especially during winter when the frozen ground prevents plants from replenishing their water supply. The needles of boreal conifers also have thick waxy coatings--a waterproof cuticle--in which stomata are sunken and protected from drying winds. Cones protect seeds and adapted to burst open in warm temperatures. Evergreen habit - retention of foliage allows plants to photosynthesize as soon as temperatures permit in spring, rather than having to waste time in the short growing season merely growing leaves. Dark color - the dark green of spruce and fir needles helps the foliage absorb maximum heat from the sun and begin photosynthesis as early as possible Taiga Plants Balsam Fir Black Spruce Paper Birch Douglas-fir Eastern Red Cedar Jack Pine White Fir White Poplar Siberian Spruce White Spruce Taiga Animals American Black Bear Bald Eagle Canadian Lynx Gray Wolf Long-Eared Owl Red Fox Snowshoe Rabbit Bobcat Grizzly Bear River Otter Wolverine Boreal forests, or taiga