WKKellogg xf187 PTBiological Station and
部。植物，Soil & Microbial Sciences
Michigan State University
Hickory Corners,MI 49060
Phone: (269) 760-8364
xf187 PT安装版Research in my lab broadly addresses issues of agricultural sustainability.We study the biogeochemistry and productivity of field crop ecosystems and landscapes.We focus on the plant,土壤,and microbial interactions that affect the delivery of important ecosystem services such as climate stability,水质，和产量。
We are particularly interested in questions of nitrogen availability and loss,soil carbon dynamics,and fluxes of the greenhouse gases CO二，nitrous oxide (N二）甲烷。Our studies range in scale from microbial to global.At the local scale we work in contemporary field crop systems such as corn,大豆，小麦in unmanaged systems,and in potential cellulosic biofuel systems such as switchgrass and restored prairie.We ask fundamental questions that inform the design of resource-efficient,high-yielding cropping systems;strategies to reduce nitrogen loss from agricultural landscapes;and national greenhouse gas mitigation policies.
Current topics being addressed in my lab include
- Assessments of the global warming impact of agricultural management.Contemporary cropping systems are not carbon neutral but could be.We xf187 PT安装版research the global warming impacts of different management practices to inform the design of future farming systems that are climate mitigating.
- Sources and control of N二O emissions from soils.n二O is one of the three major biogenic greenhouse gases (the others are CO二甲烷）and agricultural soils represent the most important anthropogenic sources of N二o全球范围内。Understanding the fundamental microbial basis for these fluxes is important for its 兴发PTeventual control.
- Nitrogen availability and loss.Nitrogen is a limiting resource in most terrestrial ecosystems and cropping systems are no exception.We xf187 PT安装版research relationships among plants,土壤,and microbes to better understand the processes that regulate nitrogen acquisition,守恒，以及农业系统的损失。
- 气候变化。Climate change adds new stresses to agricultural systems: warmer winters,summer heat waves,and changing rainfall patterns affect soil microbes,plants and carbon and nitrogen cycling in ways that differ from historical patterns.We are particularly interested in microbial feedbacks that affect soil carbon stability and reactive nitrogen loss.
Underlying all of our work is the general aim of understanding the processes that regulate biogeochemical cycles at multiple scales.