Archive for the ‘soil health’ Category

Developing Critical Knowledge on a Working Farm

To affect the working landscape, we know we have to start small – “small” as in the tiny particles and droplets and microbes that make up healthy soil. We start with the microcosm of the soil for a simple reason: if we want a vibrant Vermont with clean water, great food and a robust farm economy, we need to make sure farmers can build the health of their soils.

That seemingly simple premise is at the foundation of much of the work of the Center for Sustainable Agriculture.  And it’s the guiding force behind the research that’s being hosted by Philo Ridge Farm, where Pasture Program Technical Coordinator Juan Alvez, Ph.D., is engaged in several long-term applied projects to investigate the practices with the highest promise for productivity and profitability, as well as building and maintaining ecological balance with the land.

Doing this means looking in depth at many of the elements of the farm’s systems, investigating how soil, crops, animals and forest can all thrive.  We seek to understand more about how a healthy farm ecosystem can support a profitable business, and under what conditions.

Among the questions we’re asking are:

  • Can we combine agroforestry practices in ways that contribute to animal health and growth as well as providing benefits to soil, water and wildlife?
  • What forage species can grow well in a partly forested (shaded) area, and serve the multiple purposes of promoting animal weight gain while helping break up compacted soils? (Curious about these?  We’ll share some of Juan’s early observations: “Based on last year, the most productive species was sorghum sudangrass.  And we saw that reed canarygrass will outcompete everything else, so we’re pulling that out to see what kind of species diversity we can encourage.”)
  • How can the practice of bedded pack barns contribute to animal comfort as well as building soil fertility?
  • Can we combine precision irrigation with “cocktail cover crops” to keep land, plants and animals as healthy and productive as possible, ameliorating the “summer slump” and grazing longer into the winter as well?

We look forward to sharing information with farmers, colleagues and other researchers at upcoming pasture walks and in upcoming newsletters and articles.

In the meantime, want to know more?

  • Read more about the research project on the Center’s Research pages.
  • Plan to attend the August 15 Field Day at the farm to learn about the research, have a pasture walk with noted grazing consultant Jim Gerrish, and meet members of the Vermont Healthy Soils Coalition.  Register here.
  • Contact Principal Investigator Juan Alvez with questions.
  • And if you’re interested in joining a group of passionate volunteers (representing farmers, gardeners, seed savers, researchers and professionals, including several staff members from the Center for Sustainable Agriculture) in the Vermont Healthy Soils Coalition – an online discussion group that one member describes as “volunteers with an interest in shifting the paradigm of how people interface with the land. We operate under the premise that we can restore land water cycles by covering Vermont’s bare soil; nurturing photosynthesis and the biology underground,” please feel free to join the group and let members know how you’d like to participate by taking this short survey.

Originally published in the Center’s Fresh from the Field newsletter, June 2017

How managing for increased biodiversity can help farmers

By Juan P. Alvez, Ph.D., Pasture Technical Coordinator.  Originally posted  December 11, 2015 on the Vermont Pasture Network Blog

Root depth and structure of forage species

Pasture diversity increases farm resiliency

In 2013, our research team* embarked on a collaborative, long-term study focused on understanding how ecologic habitat disruption is associated with livestock wellbeing and health, and how that can affect society.

This is far from a local or unique issue. With human population growing above 7 billion people, a demand for higher living standards, including dairy products as more people seek access to all forms of animal protein as part of a more affluent lifestyle, is ever increasing.

Meeting this demand requires both advancing the agricultural frontier and an intensification of the production process, burdening already-degraded ecosystems, and impacting habitats, forests, biodiversity, soils, water and rural livelihoods. There is strong evidence that agriculture receives (and may provide), a diverse array of benefits from healthy ecosystems, and it also worsens problems when it disrupts them.

Cows grazing diverse pastures at Choiniere Farm

Cows grazing diverse pastures at Choiniere Farm

We suggest that managing for increased biological diversity in pasture-based dairy production systems positively contributes to improved livestock well-being, health and productivity, and creates a positive feedback ecological service loop. It has been demonstrated that minimally disturbed soils, adequate access to a diverse, high quality forage mix, and clean water are associated with bovine wellbeing and milk quality. Dairy cows support numerous microbial communities, including mutually beneficial relationships with their microbial

symbionts (rumen microbiota). These cellulolytic bacteria break down plant materials, providing cows with a source of energy and nutrients. An understanding of the response of ruminant and environmental microbial communities to specific management practices will provide an opportunity to both optimize farm productivity and enhance ecosystem-based management.

Well-balanced cool season pastures at Choiniere Farm

Well-balanced cool season pastures at Choiniere Farm

We had an integral approach to soils, forage and diet, rumen microbiology, grazing activity and milk quality, to evaluate how cows were affected.  We hypothesize that biodiversity affects livestock well-being, health, and productivity, and that it may also affect cows’ grazing behaviors.  To explore this, we studied how the relationship between grazing time and diet alters rumination activity, rumen pH and health, milk composition and productivity.

Cows that grazed on diverse pastures presented higher concentrations of poly unsaturated fatty acids than when grazing a monoculture; they were able to transfer conjugated linoleic acid and omega-3 fatty acids from these pastures into the milk. We did not find any effects between pasture diet type and lying time but, there were differences among cows in laying time where higher producing cows had longer lying times.

Cows wearing electronic loggers (wrapped in low-hind left leg) for grazing activity

Cows wearing electronic loggers (wrapped in low-hind left leg) for grazing activity

Overall we determined that pasture-based livestock who graze on pastures managed for increased biodiversity can help to improve soil health, optimize forage utilization, rumen activity, milk composition and quality reduce costs, and increase net farm income.

By optimizing these production parameters, pasture-based dairy farmers can simultaneously advance cattle health and well-being, reduce operational costs and environmental impacts and produce the healthy dairy products society is demanding. We hope that our work can explain the importance of maintaining a healthy ecosystem for Vermont farms. Full results will be published on a scientific article.

 

*Research Team (alphabetical order): Juan Alvez, John Barlow, Melissa Bainbridge, Emily Golf, Jana Kraft, Robert Mugabe and Joe Roman

Sponsors: UVM Reach Grant & NE-SARE Grant

Farming like nature: healthy soils hold the key for productive farms and clean water

By Michelle Graziosi, ECO AmeriCorps Water Quality Research Technician with the Center for Sustainable Agriculture’s Farming & Climate Change program.  Originally posted on November 12, 2015 on the Farming & Climate Change Adaptation Blog.

More than just dirt, our soils are alive. Healthy soil ecosystems, like ones found in nature, are dynamic and complex. Plants, microbes and fungi work together to cycle nutrients, filter water, and regulate the climate. When treated correctly and allowed to function properly, soils can do wonders for the productivity of a farm and the quality of food it produces, and Vermont farmers are starting to take notice.

Cover crops show healthy soil where soil and roots are one system.

Cover crops show healthy soil where soil and roots are one system.

At the 5th annual Vermont Farm to Plate Gathering, farmers, community members and scientists came together to discuss the inseparable link between healthy soils, clean water, and good food. Success stories of higher yields from no-till fields and saving money from using less pesticides and herbicides were shared, showing that paying attention to soil health pays off. Though some soil conservation practices may go against conventional techniques, one thing is clear: the healthiest and most successful farms are taking care of their soils by farming like nature.


Plant and soil are one and need each other to function properly.


Nature’s time-tested processes have allowed organisms to survive on this planet for billions of years. It’s time for us to use these processes to our advantage, an idea known as  “biomimicry”. In the natural world, forests and prairies flourish without pesticides or plows. Trees and plants remain year-round, their leaves nourish the soil in the fall and their roots hold water and soil in place when it rains. Come springtime, these ecosystems are teeming with growth and life. Nature knows how to farm.

Keynote speaker Ray “The Soils Guy” Archuleta spoke passionately and urgently about farming like nature. (Watch Ray on this short video from UVM Extension’s Across the Fence.) According to Ray, “healthy soil is covered all year round,” just like in nature. Cover crops are the most essential component of restoring and maintaining soil health. Plant and soil are one and need each other to function properly. Plants keep the soil cool and moist, and retain soil structure with their roots. Plants take energy from the sun and feed the microbes, which in exchange pull more nutrients from the soil to the plant.  Allowing these natural processes to occur significantly decreases the need to purchase and apply additional chemicals and fertilizers that may runoff and damage local waterways during heavy precipitation events.


Healthy soil is covered all year round – just like in nature.


When soil is kept in place and macropores are allowed to form, water quality impacts from agricultural runoff and sedimentation are greatly reduced. Soils also play a large role in regulating carbon. Tilling breaks apart the link between plant and soil, releasing carbon into the atmosphere and depriving microorganisms of their food. Soils become starved, and fail to function properly. But when covered with detritus and plants, soils sequester that carbon and use it for growth instead.

When Ray Archuleta visits a farm, the first thing he looks for is how the soil in the field compares to soil in the forest. If the soils are healthy, a shovel-full from each should look the same, with a layer of detritus, or organic matter, on top, and soil aggregates clinging to the roots of plants on the bottom.

Is your soil bare or covered? Learn more about the secrets in the soil by watching the videos on Ray’s Soil Health Page.

Contributor: Michelle Graziosi, the ECO AmeriCorps Water Quality Research Technician at UVM Extension’s Center for Sustainable Agriculture, attended her first Vermont Farm to Plate gathering.   Michelle graduated from the University of North Carolina at Chapel Hill in May with a B.S. in Environmental Sciences.

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