The goal of this project is to understand the life history and evolutionary genomics of recenlty discovered mycoplasma-related endobacteria (MRE) of arbuscular mycorrhizal fungi (AMF, subphylum Glomeromycotina). To this end, we sequenced, assembled, annotated, and analyzed MRE metagenomes associated with three AMF species. This work revealed that MRE gene content is highly reduced, suggesting metabolic dependence on the AMF hosts. Remarkably, the MRE genomes harbor multiple genes horizontally acquired from AMF.
The Small is Beautiful project provided reimbursements for garden-based supplies to eight Cornell Cooperative Extension garden-based learning projects across New York State, reaching over 700 youth and adults. Five of these gardens would not have been able to get started without this assistance.
There is significant incentive and interest in developing reduced- or non-chemical approaches for managing root-feeding pests in turfgrass, however, the successful development of such practices presents major challenges. Chief among these challenges is a poor understanding of soil characteristics which determine pest distribution in turf soils. The short-term objective of this project will be to conduct a field study to identify soil chemical and physical properties that explain distributional patterns of turf root pests on golf courses and home lawns.
The Winter Dairy Management program was held at 10 different sites across New York State. It's intended audience was dairy farmers, agriculture students and agriservice professionals. 296 people participated in the program. Program evaluations indicated that the program was very successful in providing information that farmers would use on their farms to increase profitability.
Container traps baited with a food attractant are often promoted as a technique to reduce yellowjacket populations without the use of pesticides. There has been little or no work on whether the traps reduce the risk of being stung. Continuing on work initiated in 2006, we tested the premise that trapping around a periphery of a plot will reduce the number of yellowjackets in the center of the plot. The assumption was made that the fewer the yellowjackets, the less the risk of being stung. During 2015, we also began testing if adding a surfactant to the bait increased captures.
In order to provide growers, retailers and consumers options, other than banned invasive plants we spearheaded the effort along with Cornell’s invasive species group to compile a list of alternative plants.
In the aftermath of Superstorm Sandy NY Sea Grant worked with State officials and marina industry representatives to help business get the resources they needed to begin to recover from this disaster. NYSG documented storm related losses and assisted industry leaders and state officials in identifying, implementing and increasing awareness of grant programs to facilitate recovery efforts. These efforts helped marinas receive over $10 million in storm recovery grants representing the largest percentage of money awarded for any small business sector in the state.
Determining the impact of pesticides on the environment, workers and consumers can be a complex matter, but NY State’s IPM program has been making it easier for growers to decide which pesticide to use for over twenty years. The Environmental Impact Quotient (EIQ) is the formula that simplifies the process. Devised and maintained by the NYS IPM program it is used by growers and crop advisors from NY, the US and abroad. EIQ users enter their crop specifics into the on-line calculator to compare the impact of different pesticides.
This project involves the design, implementation, and evaluation of tools that incorporate computational analysis techniques to support frame reflection into the processes of online political engagement. This work involves both the application of existing analytic methods and the development of novel computational techniques, as well as evaluation in two real-world settings: in public deliberative forums and with readers of political blogs.
Planted stormwater retention and infiltration practices are important for reducing runoff and maximizing green space in urban areas. While a wide variety of herbaceous plants are often successfully used in these spaces ... they can present maintenance issues because of the need to annually cut back dead foliage and stems.
Utilizing woody plants decreases the need for additional seasonal maintenance while successfully adding aesthetic and
functional vegetation to stormwater retention practices.”