The overarching goal of my research program is to study and gain a better understanding of the impact of biotic and edaphic factors on growth, population and community dynamics of agrestal, ruderal, and environmental weeds. An important objective of the program is the development, testing, and implementation of safe, effective, sustainable and economically viable management strategies for troublesome plants we refer to as 'weeds'. To achieve this objective, my research program comprises several major thrusts.

·  Seed biology/ecology

·  Invasive weed biology

·  Biological control, and

·  Integrated weed management.

      The seed biology/ecology research focuses on understanding the impact of biotic factors such as selective disease and plant competition and abiotic factors such as light, soil fertility, moisture, soil depth on seed dormancy and emergence patterns in weeds of cropping and non-cropping systems.

Current projects focus on the:

·  Effect of maize (Zea mays) planting date and interspecific competition on seed dormancy and seedling vigor of velvetleaf (Abutilon theophrasti)

·  Influence of salinity on the germination behavior of common ragweed (Ambrosia artemisiifolia) seeds collected from plants growing in contrasting habitats

·  Effects of harvest date and storage on seed germinability and seedling vigor of the exotic invasive species, pale swallow-wort (Cynanchum rossicum) growing in different habitats

·  Impact of mulch on soil moisture and emergence of important annual agrestal weeds including pigweeds (Amaranthus spp.), velvetleaf, common lambsquarters (Chenopodium album) and giant foxtail (Setaria faberi).

·  Comparison of weed emergence patterns and vegetative regeneration potential of weeds found on the highly fertile Terra Preta do Indio (anthropogenic black) soils and nutrient-poor oxysols in the Brazilian Amazon.

 

      This work focuses on determining those attributes of exotic invasive plants that contribute to their invasiveness and the specific features of habitats that influence their susceptibility to invasion by exotic species.

Current projects focus on the:

·  Seedbank dynamics, reproductive fitness, and dispersal ability of pale swallow-wort (Cynanchum rossicum - syn. Vincetoxicum rossicum) [Asclepiadaceae] in contrasting habitats of central NY State.

·  Role of arbuscular mycorrhizal fungi (AMF) in the invasion process of pale swallow-wort.

·  Impact of pale swallow-wort and black swallow-wort (Cynanchum nigrum) on the population dynamics of the Monarch butterfly (Danaus plexippus), and

·  Growth and expansion of mugwort (Artemisia vulgaris) in contrasting habitats and under different management regimes.

See slide presentation: Swallow-worts: Increasingly Problematic Exotic Vines in NY State

 

Current/Future projects focus on the:

·  Influence of Bt corn for corn rootworm (CRW) (Diabrotica spp. (Coleoptera: Chrysomelidae) control on post-dispersal weed seed predation levels

·  Potential of the rust fungus, Puccinia glechomatis, as a biocontrol agent for ground ivy (Glechoma hederacea) in turfgrass

·  Potential for the classical biological control of pale swallow-wort (Cynanchum rossicum) in North America

·  Impact of the selective fungal pathogen, Colletotrichum coccodes and a seed-eating bruchid weevil on velvetleaf growth and seed production

 

      The integrated management of weeds (IWM) is a final focus of my research and aims to make use of a combination of control strategies (e.g. cultural, mechanical, biological, chemical) to effectively manage problem weeds.

Current projects focus on the:

·  Effects of chisel and zone tillage and different weed management tactics (chemical and mechanical cultivation) on spatial and temporal weed patch dynamics in a corn cropping system

·  Impacts of tillage intensity and soil fertility management on nutrient dynamics, weeds and crop quality during transition to organic vegetable production

·  Inventory, population dynamics, and management of weeds on Terra Preta do Indio soils.

 

 

 

 

• Wild Plant Resources and Development (graduate-lectures), 2004 to present.
• Bioremediation of Environmental Pollution (graduate-lectures and lab), 2005 to present.
• Bio-degradation and Pollution Control of Pesticides (graduate-lectures), 2005 to present.
• An introduction to Water Reseources (graduate-lectures), 2002-present.
• Weed Science, undergraduate (undergraduate-lectures and lab), 1988 to present.
• plant Quaratine (undergraduate-lectures and lab), 1989 to present.

 

 

 

     At present, I am a post-doctoral fellow as part of the USDA's National Research Initiative (NRI) (see project summary below). In this capacity and through on-going collaborations with Dr. Susan Riha and Andres Berger in the Department of Earth and Atmospheric Sciences, we are investigating the role of early season environmental factors like temperature, moisture stress, and soil nitrogen status for initiating resource capture hierarchies between maize and weeds. The legacy of these early conditions appears to persist throughout the cropping season and may largely determine both crop yield loss and weed fecundity. By characterizing these relationships and quantifying the comparative plant responses that create them, we aim to develop robust decision support tools that provide farmers a practical basis for reducing post-emergence herbicide use. Additional areas of interest include: root system development and water use in mixed vegetation systems, rice responses to contrasting cultural practices and edaphic conditions, and the application of remote sensing and GIS technologies for assessing landscape-scale ecosystem processes. To complement field and controlled environment experimentation, we also employ dynamic simulation models to integrate and extend our research findings.

 

 

 

 

 

      My undergraduate research at the University of Minnesota used farmer interviews as a way of understanding agricultural issues. My thesis research was conducted in Chiapas, Mexico on the impact of NAFTA on indigenous maize farmers. My honors project publicized the stories of sustainable farming families in Minnesota and Wisconsin. My overall interests range from international agriculture to plant ecology and physiology to building socially just food systems.
      My current research at Cornell seeks to increase knowledge about the biology/ecology of two introduced species of swallow-wort [pale swallow-wort - Vincetoxicum rossicum and black swallow-wort - Vincetoxicum nigrum), both invasive weeds that are problematic in the northeastern United States and adjoining parts of Canada. Ultimately, we hope to contribute to the development of an effective biological control program against the swallow-worts in North America, whether through the use of insects or pathogens. Thus, the main focus of my research is to determine the effects of abiotic soil factors such as soil pH and drainage depth, on the growth and reproductive success of these species. This research will aid in determining what the potential distribution range of the two swallow-wort species is likely to be in the northeastern U.S. and the adjacent Canadian provinces of Ontario and Quebec. My research is part of a larger collaborative effort on the swallow-worts between the Cornell Weed Ecology Research Group and the research team of Dr. Lindsey Milbrath, Research Entomologist, at the USDA-ARS Plant Protection Research Unit in Ithaca, NY.

http://www.ars.usda.gov/pandp/people/people.htm?personid=34375

 

 

      My research is part of an multidisciplinary study at Cornell that investigates how non-target insects, weeds, and soil microbial communities are affected by transgenic Bt corn to control corn rootworm Diabrotica spp., (Coleoptera: Crysomelidae). The likelihood of corn rootworm (CRW) Bt corn replacing a significant percentage of the corn acreage nationwide makes it imperative that we understand both the positive and negative effects of high levels of this protein on agro-ecosystems by comparison to the standard application of soil insecticides.
      Post-dispersal seed predation can be a major source of seed loss, reducing seed supply and seedling emergence in a number of habitats including agricultural systems. Key beneficial weed seed predators may encounter higher risk from the toxins produced by CRW Bt corn because they are in the same Coleopteran taxon as the target organism. Carabid beetles (Coleoptera: Carabidae) are generalist predators that search for prey, including seeds, at the soil surface of agricultural fields and adjacent habitats. I am focusing my research on assessing how CRW Bt and soil insecticides alter the composition and abundance of three species of non-target beetles and how in turn, this affects the weed suppression they provide to the agro-ecosystem. This research is part of a long-term, multidisciplinary cost-benefit analysis of these two pest management practices on non-target organisms providing ecosystem functions that includes nematodes, the soil microbial community, and soil-dwelling arthropods.

 

 

      The objectives of my research are to:

      (1) to document differences in weed pressure between cropping systems that vary in their nitrogen-saturation levels; and

     (2) investigate the effects of these differences in N-saturation levels on the incidence of disease affecting weeds and on subsequent weed growth and vigor.

 

 

      The main goal of my research is to determine the influence of polyembryony (i.e., the production of multiple genetically-identical seedlings from a single seed) on seedling establishment success and growth in the exotic invasive vine, pale swallow-wort (Vincetoxicum rossicum syn. Cynanchum rossicum). I am also interested in examining the effect that light environment (forest gap versus forest shade) has on seedling/plant establishment and performance in this species. I am testing several hypotheses including:

·  pale swallow-wort seedling establishment and growth will be greater in exposed forest gaps compared with more shaded areas, and

·  the greater the number of seedlings from polyembryonic seeds the greater their establishment success and performance.

The research is being carried out in a forested section of the Robert Musgrave Agronomy Research Centre in Aurora, NY. Pale swallow-wort is very abundant and is expanding its range in this region of central New York State.

 

 

 

 

 

      The primary objective of my research is to develop integrated weed management systems which reduce reliance on herbicides without sacrificing farm profits. Most of my applied research has focused on the use of cultivation and cover crops for weed management in vegetable crops. More basic research has examined intraspecific variation in weed seed production, germination, and emergence patterns in annual cropping systems. Current research projects include:

·  Summer smother crops. Evaluation of varieties of forage cowpea and soybean for weed suppression, biomass production, and N-fixation under Northeast organic production systems; Impact of seeding rate and soil fertility on weed suppressive ability and N fixation efficiency of mixtures of legumes (soybean and cowpea) and non-legumes (buckwheat and sorgum sudangrass).

·  Intercropping vegetables and cover crops. Effects on weed management of interseeding cover crops (rye, vetch and oats) into brassica crops (cabbage, broccoli and kale) during cultivation operations; Impact of cover crops as nurse crops in slow-emerging vegetables.

·  Optimization of stale seed bed practices. Impact of abiotic factors (temperature and soil fertility) and methods of weed control (vinegar, flaming or cultivation) on effectiveness of stale seed beds.

·  Influence of N fertility on weed emergence. Effect of N fertilization rate, timing, and N-source on germination and emergence of multiple populations of Powell amaranth.

·  Maternal effects on weed seed characteristics. Impact of competition, N fertility, and drought stress during seed maturation on seed size, seed N content and seed germination.

·  Habitat correlated differences in weed seed characteristics. Microevolution of seed characteristics of Powell amaranth under different crop-rotation (perennial vs annual) and fertility management (organic vs inorganic N sources) systems.

 

 

      My M.S. work in Toni's group focused on the weed ecology of Terra preta (Black Earth) sites of the central Amazon. Terra preta soils are of anthropogenic origin, and are thought to have originated in semi-permanent Amerindian settlements in the prehistoric and early historic periods. Contrarily to the vast majority of soils from which they were derived and that surround Terra preta patches, the latter are black and contain large amounts of organic carbon, phosphorus (P), and calcium (Ca) (also see work by Prof. Johannes Lehmann in the Department of Crop and Soil Sciences). Local farmers value these soils because of their potential high productivity. In fact, Terra preta soils are often used to grow horticultural crops for market, a production system that one rarely encounters on surrounding oxisols. But, as one might expect, weed pressure tends to be greater on Terra preta soils.
      The basic questions I addressed in my research focused on the differences in weed biodiversity, crop yield reduction potential, and weed population dynamics on Terra preta soils versus surrounding soils. Weed and crop (corn) data was collected from experimental field trials established at four different locations near Manaus , Amazonas, Brasil. At each location, two paired plots were established, one on Terra preta and one on the surrounding, background soil. A complete list of weed species observed during this trial and in a survey of cropped plots on Terra preta can be found here.
      Another component of my research included assessing farm biodiversity as a function of market integration on Terra preta farms. I worked in collaboration with Profs. Charles R. Clement and Newton Falcão, at the National Institute for Research in the Amazon (INPA), Manaus, Amazonas, Brasil.
      My present research interests, in J. Lehmann's group, concern the ability of charcoal amendments to reduce nutrient leaching on highly weathered, acid soil, and to assess carbon dynamics with charcoal additions. I do fieldwork in the Llanos Orientales of Colombia, in collaboration with Marco Rondon at CIAT (www.ciat.cgiar.org).

 

 

      My PhD research involves looking at how maternal environment influences the seed dormancy in velvetleaf (Abutilon theophrasti Medic.). The overall goal is to determine if velvetleaf individuals escaping weed control or germinating later in the growing season need to be controlled with herbicides. It is unknown whether velvetleaf growing under competition with corn and under longer photoperiods will have altered allocation to seed dormancy. The main factors being examined are:

·  Environment : corn vs. no corn

·  Corn planting date : Early May, Late May, Mid June

·  Weed transplant date : 14 DBE (days before corn emergence), 0 DAE, and 14 DAE

      It is hoped that these treatments will show the effect of photoperiod and competition on velvetleaf seed dormancy. It is hypothesized that plants growing under longer photoperiods and at a competitive disadvantage to the corn will allocate fewer resources to seed dormancy. If this is the case it will be less critical to control emergent weeds late in the season as they may be controlled with herbicides or tillage the following growing season.

 

 

 

     My research focuses on determining the effects of arbuscular-mycorrhizal fungi (AMF) on the growth and competitive ability of the exotic invasive species pale swallow-wort (Vincetoxicum rossicum) [Asclepiadaceae]. My research makes use of both laboratory and field experiments with field trials established near Henderson Shores, NY just south of Lake Ontario. A collaborator on this project is Dr. Sigurdur Greipsson from the Department of Biological and Environmental Science, Troy State University, Troy Alabama.