| File | Title | Manuscript Id |
|---|
| ChapTitleBig10 The Origin and Diversification of Life on EarthChapTitleSmallUNDERSTANDING BIODIVERSITY | phelanphys3e_ch10_1.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_1_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.1–10.3: Life on earth most likely originated from non-living materials. | phelanphys3e_ch10_2.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_2_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.2: Cells and self-replicating systems evolved together to create the first life. | phelanphys3e_ch10_3.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_3_dlap.xml | 54c9b3b9757a2e3f6c000000 |
|
10.1 10.3 THIS IS HOW WE DO IT: Could life have originated in ice, rather than in a “warm little pondâ€�
| phelanphys3e_ch10_4.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_4_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.3 THIS IS HOW WE DO IT: Could life have originated in ice, rather than in a “warm little pondâ€� | phelanphys3e_ch10_5.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_5_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.4–10.7: Species are the basic units of biodiversity. | phelanphys3e_ch10_6.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_6_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.5: How do we name species? | phelanphys3e_ch10_7.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_7_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.6: Species are not always easily defined. | phelanphys3e_ch10_8.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_8_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.7: How do new species arise? | phelanphys3e_ch10_9.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_9_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.8–10.10: Evolutionary trees help us conceptualize and categorize biodiversity. | phelanphys3e_ch10_10.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_10_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.9: Evolutionary trees show ancestor-descendant relationships. | phelanphys3e_ch10_11.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_11_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.10: Similar structures don’t always reveal common ancestry. | phelanphys3e_ch10_12.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_12_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.11–10.14: Macroevolution gives rise to great diversity. | phelanphys3e_ch10_13.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_13_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.12: The pace of evolution is not constant. | phelanphys3e_ch10_14.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_14_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.13: Adaptive radiations are times of extreme diversification. | phelanphys3e_ch10_15.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_15_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.14: There have been several mass extinctions on earth. | phelanphys3e_ch10_16.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_16_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.15–10.18: An overview of the diversity of life on earth: organisms are divided into three domains. | phelanphys3e_ch10_17.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_17_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.16: The bacteria domain has tremendous biological diversity. | phelanphys3e_ch10_18.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_18_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.17: The archaea domain includes many species living in extreme environments. | phelanphys3e_ch10_19.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_19_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.18: The eukarya domain consists of four kingdoms: plants, animals, fungi, and protists. | phelanphys3e_ch10_20.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_20_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| KNOWLEDGE YOU CAN USE | phelanphys3e_ch10_21.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_21_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| Key Terms in The Origin and Diversification of Life on Earth | phelanphys3e_ch10_22.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_22_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| REVIEW & REHEARSE: 10 THE ORIGIN and DIVERSIFICATION of LIFE on EARTH | phelanphys3e_ch10_23.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_23_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.1–10.3: Life on earth most likely originated from non-living materials. | phelanphys3e_ch10_24.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_24_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.4–10.7: Species are the basic units of biodiversity. | phelanphys3e_ch10_25.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_25_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.8–10.10: Evolutionary trees help us conceptualize and categorize biodiversity. | phelanphys3e_ch10_26.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_26_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.11–10.14: Macroevolution gives rise to great diversity. | phelanphys3e_ch10_27.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_27_dlap.xml | 54c9b3b9757a2e3f6c000000 |
| 10.15–10.18: An overview of the diversity of life on earth: organisms are divided into three domains. | phelanphys3e_ch10_28.html | 54c9b3b9757a2e3f6c000000 |
| DLAP questions | phelanphys3e_ch10_28_dlap.xml | 54c9b3b9757a2e3f6c000000 |