NERDS 2012 Pre-Session #1 Content Lecture: Terrestrial and Aquatic Ecology Dr. Jennifer Hollander Dr. Jeffrey Baguley Outline • Climate and Life Zones of the Sierra Nevada • Plants – Gymnosperms – Angiosperms • Animals • Plant-Animal Interactions • Aquatic Organisms Basic physics of the atmosphere • Rule #1 – Warm air holds more water • Rule #2 – Warm air rises, cold air falls • Regional climates are determined by a combination of factors, most of which are influenced by these rules. Hadley cells Subtropical high: arid Ecosystems in the Sierra Nevada – affected by elevation and precipitation Whitebark pine/ white fir Lodgepole forest Jeffrey pine 8 Plants Gymnosperm Characteristics • “Naked seed” – seeds mature in cones • Found primarily in the Northern Hemisphere • Conifers (largest Gymnosperm group) and Ephedra have modified leaf structures and can carry on photosynthesis in the winter (no leaves to drop) Angiosperm Characteristics • Flowers! – The function of the flower is to ensure fertilization of the ovule and development of fruit – Angiosperms are often classified based on their flowers (shape, number of petals, etc.) • Fruit – Ovary which encases the seeds – May serve to attract dispersers Two major types of angiosperms • We will talk about specific species of animals during the second pre-session • Today we are focusing on the bigger picture, and groups of animals that are involved in dispersing seeds of forest plants Order Rodentia • 40% of all mammal species • Characterized by two continuously growing incisors in upper and lower jaw – Kept short by gnawing Squirrels Sciuridae (Spermophilus or Ammospermophilus) • Small to medium sized rodents found worldwide • Live in almost every habitat • Mostly eat seeds, however some squirrels are known to be omnivorous at times Chipmunks Sciuridae (Tamias or Eutamias) • Small, striped mammals in squirrel family • All species (except one) are found in N. America • Omnivorous, but collect and store seeds for winter us Other Rodents Community Ecology • In ecology, a community is a group of two or more populations of a different species • Community ecology study the interactions between species in a community • There are many different types of species interaction, including some that involve multiple species Some types of species interactions • Competition – species may compete with each other for finite resources • Predation – using another species for food (not always “hunting” them) • Mutualism – an interaction between species in which both species benefit • Parasitism – one organism benefits (the parasite) at the expense of the other (the host) Plant-Animal Interactions • Pollination • Seed dispersal Frugivory • Frugivorous animals (primarily birds) disperse seeds by eating fruits and then defecating the seeds in a microsite conducive to germination and emergence Seed Caching Larderhoard Scatterhoard Seed caching resulting in dispersal Seed caching animals disperse seeds by storing them for winter, and then “forgetting” to retrieve them. The seeds must be placed in a microsite conducive to germination and emergence. Watersheds • The entire land mass that drains into a given stream or river system. • The Feather River watershed includes catchments for the various tributaries of the Feather and Yuba Rivers. Terrestrial/Aquatic Commonalities • Every living organism needs to eat something. – Photosynthesis fuels the food webs • Every living organism needs to reproduce. • Organisms will interact with each other in multiple ways. – Competition, predation, symbiosis, etc. • While some organisms are exclusively aquatic or terrestrial, others depend on both habitats. Bacteria & Cyanobacteria • Unicellular prokaryotic organisms • Bacteria are important decomposers and recyclers of organic and inorganic wastes • Cyanobacteria may be important for photosynthesis, but blooms may also be an indication of poor ecosystem health. Protists • Unicellular (and some multicellular) eukaryotes • Some are photosynthetic • Some are heterotrophic • Some mixotrophic Phytoplankton and Benthic Microalgae Euglena Dinoflagelates Crysophytes Diatoms Plants & Macroalgae • “Macrophytes” • There are several types of freshwater aquatic plants that are an important source of photosynthesis and also habitat in aquatic ecosystems. • Macroalgae are multicellular protists (not plants) Plants and Macroalgae Red Algae Green Algae Animals • Multicellular eukaryotes – Invertebrates – Vertebrates Porifera Deuterostomia Bilateria Eumetazoa Ancestral colonial choanoflagellate Chordata Echinodermata Other bilaterians (including Nematoda, Arthropoda, Mollusca, and Annelida) Cnidaria – Simplest – Evolutionarily oldest – Lack symmetry – Lack true tissues Porifera • Sponges Porifera Anatomy Deuterostomia Bilateria Eumetazoa Ancestral colonial choanoflagellate Chordata Echinodermata Other bilaterians (including Nematoda, Arthropoda, Mollusca, and Annelida) – Eumetazoa – Radial symetry – True tissues – Diploblastic Cnidaria • Corals, anemones, hydroids, jellyfish Porifera Phylum Cnidaria Cnidaria Form/Function • Polyp and Medusa – Gastrovasular cavity • Digestion • Water exchange • Gas exchange – Tentacles • Cnidocytes with nematocysts • Capture prey or detrital particles Bilaterally Symmetrical Animals Deuterostomia Bilateria Eumetazoa Ancestral colonial choanoflagellate Chordata Echinodermata Other bilaterians (including Nematoda, Arthropoda, Mollusca, and Annelida) Cnidaria – Platyhelminthes – Mollusca – Annelida – Nematoda – Arthropoda Porifera • Invertebrate Phyla Phylum Platyhelminthes • “Flat worms” – Acoelomates – Mostly free-living – Mostly marine – Some freshwater – Some parasitic A freshwater turbellarian Phylum Mollusca • Phylum Mollusca – Includes snails and slugs, oysters and clams, and octopi and squids • Most mollusks are marine – Though some inhabit fresh water and some are terrestrial • In freshwater habitats you will find: – Gastropods (snails) – Bivalves (clams & mussels) Gastropods • About three-quarters of all living species of molluscs – Belong to class Gastropoda Bivalves • Molluscs of class Bivalvia – Include many species of clams, mussels, etc. – Have a shell divided into two halves – Suspension (filter) & deposit feeders Phylum Annelida • Annelids are segmented worms • Annelids – Have bodies composed of a series of fused rings Oligochaetes • Oligochaetes (class Oligochaeta) – Are named for their relatively sparse setae, or bristles made of chitin – Include the earthworms and a variety of freshwater and marine species Leeches • Members of class Hirudinea – Are blood-sucking parasites, such as leeches Figure 33.25 Phylum Nematoda • The round worms • Ubiquitous – found everywhere – Marine, freshwater, terrestrial, some even live in polar ice. – It has been said that if you eliminated all of the structure on the earth, but left the nematodes behind, you would see a grey shadow of that structure. • 1,000,000+ species estimated globally Phylum Arthropoda • Probably the most successful phylum of all animals – Approximately 1018 – 1019 individuals – 2,000,000+ species (insects and crustaceans account for most) • Two out of every three known species of animals are arthropods • Members of the phylum Arthropoda are found in all of Earth’s habitats General Characteristics of Arthropods • Arthropods are segmented coelomates that have an exoskeleton and jointed appendages • The diversity and success of arthropods – largely related to their segmentation, hard exoskeleton, and jointed appendages Insects • Subphylum Hexapoda, insects and their relatives – Are more species-rich than most other forms of life – Live in almost every terrestrial habitat and in fresh water Notable Freshwater Insects Mayfly Nymph Caddisfly larva Chironomid Larva Stonefly Nymph Caddisfly Adult Chironomid Adult Crustaceans • While arachnids and insects thrive on land – Crustaceans, for the most part, have remained in marine and freshwater environments • Crustaceans (subphylum Crustacea) – Typically have branched, appendages that are extensively specialized for feeding and locomotion • Decapods are all relatively large crustaceans – And include lobsters, crabs, crayfish, and shrimp Invertebrates Come in All Sizes Meiofauna 0.063 mm – 0.5 mm Live on surface or within sediment, small enough to live between sand grains Macrofauna Megafauna 5 cm, easily see with naked eye 0.5 mm – 5 cm Live on surface or burrow within sediment (most are less one centimeter). • A theoretical phylogeny of chordates Vertebrates • • • • Amphibians Reptiles Fish Birds