B S I

advertisement

B I

4 : 0 0 P M

P

H Y S I I C S

/

S

A

E

S T

M

R

I N

O

A

N

R

O M Y

A

U D

I O L

.

.

A 1 0 2

O G Y S E M I N A R

R E F R E S H M E N T S I N

A N D

F

O

F O Y E R 3 : 4 5 P M

O L L O W I N G S E M I N A R

Tuesday, January 18, 2011

“Do Leaf-Eating Insects Respond to

Environmental Change? Insights from Fossils”

Dr. Peter Wilf

Paleontological Society

Distinguished Lecturer

Associate Professor

Department of Geosciences

Pennsylvania State University

Rebecca Horwitt

“Plants and herbivorous insects have dominated terrestrial ecosystems for over 300 million years.

Uniquely in the fossil record, foliage with well-preserved insect damage offers abundant and diverse information both about producers and about ecological and sometimes taxonomic groups of consumers.

These data are ideally suited to investigate food web response to environmental perturbations, and they represent an invaluable deep-time complement to neoecological studies of global change. Correlations between feeding diversity and temperature, between herbivory and leaf traits that are modulated by climate, and between insect diversity and plant diversity can all be investigated in deep time. To illustrate,

I emphasize recent work on the time interval from the latest Cretaceous through the middle Eocene (67–

47 million years ago (Ma)), including two significant events that affected life: the end-Cretaceous mass extinction (65.5 Ma) and its ensuing recovery; and globally warming temperatures across the Paleocene–

Eocene boundary (55.8 Ma). Climatic effects predicted from neoecology generally hold true in these deeptime settings. Rising temperature is associated with increased herbivory in multiple studies, a result with major predictive importance for current global warming. Diverse floras are usually associated with diverse insect damage; however, recovery from the end-Cretaceous extinction reveals uncorrelated plant and insect diversity as food webs rebuilt chaotically from a drastically simplified state. Calibration studies from living forests are needed to improve interpretation of the fossil data.” New Phytologist (2008) 178: 486–502

Host: Caroline Strömberg

To request disability accommodations, contact the Disability Services Office at least 10 days in advance of the event.

206-543-6450 OR dso@u.washington.edu

Download