Cover Cropping In Vineyards
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| Author | : Chuck A. Ingels |
| Publisher | : University of California, Agriculture and Natural Resources |
| Total Pages | : 172 |
| Release | : 1998 |
| Genre | : Technology & Engineering |
| ISBN | : 9781879906358 |
This guide features cutting-edge methods for using cover crops to enhance vineyard performance. Based on extensive research, this guide details technical and theoretical information on how cover crops affect vineyards and promote ecological stability. With how-to instructions for activities such as field application, this practical reference is a must-have for vineyard owners, managers, consultants, and pest control advisers.
| Author | : Andy Clark |
| Publisher | : DIANE Publishing |
| Total Pages | : 248 |
| Release | : 2008-07 |
| Genre | : Technology & Engineering |
| ISBN | : 1437903797 |
Cover crops slow erosion, improve soil, smother weeds, enhance nutrient and moisture availability, help control many pests and bring a host of other benefits to your farm. At the same time, they can reduce costs, increase profits and even create new sources of income. You¿ll reap dividends on your cover crop investments for years, since their benefits accumulate over the long term. This book will help you find which ones are right for you. Captures farmer and other research results from the past ten years. The authors verified the info. from the 2nd ed., added new results and updated farmer profiles and research data, and added 2 chap. Includes maps and charts, detailed narratives about individual cover crop species, and chap. about aspects of cover cropping.
| Author | : Ted Goldammer |
| Publisher | : |
| Total Pages | : 482 |
| Release | : 2018 |
| Genre | : Grape industry |
| ISBN | : 9780967521251 |
"Updated and revised to keep pace with developments, the third edition of Grape Grower's Handbook: a Guide to Viticulture for Wine Production is meant to be a stand-alone publication that describes all aspects of wine grape production. The book is written in a nontechnical format designed to be practical and well-suited for vineyard applications."--Back cover.
| Author | : Richard Smith (University of California Cooperative Extension Advisor) |
| Publisher | : University of California Agriculture and Natural Resources |
| Total Pages | : 99 |
| Release | : 2011 |
| Genre | : Technology & Engineering |
| ISBN | : 1601076797 |
The handbook describes primary cover crop species, including grasses, legumes, mustards and other cool-season and warm-season options. Photos, seeding details, winter vigor descriptions, nitrogen fixation and scavenging, weed suppression and nematode resistance are included for each species. In addition to assisting with crop selection, this handbook addresses the effects of cover cropping on water management, pest management and farm economics. For California growers, the handbook also discusses differences in cover crop use for the Central Valley, Desert and Coastal regions. Chapters include: Botany and Species Selection Agricultural Soil Ecology Water Management and Impacts on Water Quality Soil Nitrogen Fertility Management Weeds Soilborne Pathogens
| Author | : |
| Publisher | : |
| Total Pages | : 52 |
| Release | : 1993 |
| Genre | : Cover crops |
| ISBN | : |
| Author | : |
| Publisher | : UCANR Publications |
| Total Pages | : 20 |
| Release | : 2006 |
| Genre | : Cover crops |
| ISBN | : 9781601073976 |
| Author | : Morgan A. Curtis |
| Publisher | : |
| Total Pages | : 106 |
| Release | : 2013 |
| Genre | : Cover crops |
| ISBN | : |
The use of cover crops in young vineyards is not widely accepted in the Pacific Northwest due to concerns of water and nutrient competition between the cover crop and vines. The last 2 years of a 4-year study started in 2009 are reported here. The study evaluated the use of biomass management of a winter annual cover to enhance growth and conserve soil moisture. A winter annual cover crop of cereal rye (Secale cereale) and crimson clover (Trifolium incarnatum) was planted each fall in a pre-production Vitis vinifera 'Chardonnay' vineyard. Cover-cropped treatments were compared to an unplanted treatment which was never planted to cover crop and kept free of vegetation by tillage and/or herbicides for the duration of the study. In spring, cover crop biomass was mowed and residues were placed in the alleys, removed from the alleys, or applied as a mulch to the vine row at two densities (one equal to the alley biomass, and one with triple the alley biomass). All treatments were tilled and kept free of vegetation during the summer. Insufficient residue was produced in 2012 and data collected in that year was used to determine residual effects from three prior years of treatments. Higher levels of soil moisture were maintained in mulched treatments through the summer of 2011. Soil mechanical resistance was decreased under the high level of mulch. Root density was increased in mulched vine rows, likely as a result of both increased soil moisture and reduced soil mechanical resistance. In 2011, shoot growth was increased by 17% in mulch treatments, and fruitfulness was higher in 2011 and 2012. Tissue nitrogen and leaf chlorophyll were increased in mulched treatments at bloom, and potassium and boron were higher with the high level of mulch in 2011. Clusters were larger in the high level of mulch treatment with more berries per cluster, but berry weight and fruit yield were not different. Cover crop and mulch did not alter soluble solids, pH, titratable acidity, or yeast assimilable nitrogen. By using a winter annual cover crop, consisting of a mix of grasses and legumes, and applying the biomass to the vines in the spring, cover crops can be a viable management option for establishing vineyards in the Pacific Northwest.
| Author | : Jerry L. Hatfield |
| Publisher | : John Wiley & Sons |
| Total Pages | : 432 |
| Release | : 2020-01-22 |
| Genre | : Technology & Engineering |
| ISBN | : 0891188533 |
Degradation of soils continues at a pace that will eventually create a local, regional, or even global crisis when diminished soil resources collide with increasing climate variation. It's not too late to restore our soils to a more productive state by rediscovering the value of soil management, building on our well-established and ever-expanding scientific understanding of soils. Soil management concepts have been in place since the cultivation of crops, but we need to rediscover the principles that are linked together in effective soil management. This book is unique because of its treatment of soil management based on principles—the physical, chemical, and biological processes and how together they form the foundation for soil management processes that range from tillage to nutrient management. Whether new to soil science or needing a concise reference, readers will benefit from this book's ability to integrate the science of soils with management issues and long-term conservation efforts.
| Author | : LARRY J. BETTIGA |
| Publisher | : UCANR Publications |
| Total Pages | : 625 |
| Release | : 2013-11-15 |
| Genre | : Technology & Engineering |
| ISBN | : 1601078005 |
In the much anticipated 3rd edition of Grape Pest Management, more than 70 research scientists, cooperative extension advisors and specialists, growers, and pest control advisers have consolidated the latest scientific studies and research into one handy reference. The result is a comprehensive, easy-to-read pest management tool. The new edition, the first in over a decade, includes several new invasive species that are now major pests. It also reflects an improved understanding among researchers, farmers, and growers about the biology of pests. With nine expansive chapters, helpful, colorful photos throughout, here’s more of what you’ll find: •Diagnostic techniques for identifying vineyard problems •Detailed descriptions of more than a dozen diseases •Comprehensive, illustrated listings of insect and mite pests,including the recently emerging glassy winged sharpshooter and Virginia creeper leaf-hopper •Regional calendars of events for viticultural management •Up-to-date strategies for vegetation management
| Author | : Rebecca Marie Sweet |
| Publisher | : |
| Total Pages | : 174 |
| Release | : 2006 |
| Genre | : Cover crops |
| ISBN | : |
It is estimated that 50-75% of Oregon vineyards cultivate at least every other alley in order to 1) reduce water stress 2) increase vineyard canopy temperatures and 3) increase nutrient availability. Because many vineyards are situated on steep hillsides, frequent tillage could result in increased soil erosion, decreased soil quality and potential pollution of watersheds. Seven cover crop treatments were established at two commercial vineyards in the northern Willamette Valley in the fall of 2003 and monitored for establishment and their impact on grapevines in 2004 and 2005. Treatments were as follows: 1) winter annuals (oats, rye and vetch), 2) clover mix (subclovers, clovers and medic), 3) native grass mix (Willamette Valley upland prairie species), 4) native meadow mix (forbs plus grasses), 5) perennial grass mix (sheep fescue, dwarf perennial rye and hard fescue), 6) resident vegetation, and 7) a clean cultivated control. Each treatment was replicated four times at each of the vineyards in a randomized complete block design. Treatments were applied to four adjacent alleys flanking 8 or 10 vines in three vine rows with one clean cultivated boarder dividing blocks. Cover crop establishment was measured by destructively removing biomass during the growing season. Weeds were sorted from cover crops, and both were dried, weighed and measured for nitrogen (N) content. Over the course of the growing season, soil water was measured in the vine row and alleys with time domain reflectometry, and midday vine leaf water potential was measured with a pressure bomb. Shoot lengths were measured twice during the season. Vine leaf blades were collected at bloom and veraison for nutrient analysis (N, P, K, S, Ca, Mg, Mn, Cu, B, Zn and Fe). Root samples were taken at bloom and post harvest in the vine row and alley in three treatments (winter annuals, perennial grass mix and clean cultivated) and analyzed for colonization by arbuscular mycorrhizal fungi (AMF). At harvest, fruit yield was measured and fruit quality assessed by measuring soluble solids (BRIX), titratable acidity, pH and N content. Shoot prunings were collected and measured after vine dormancy. We expected to see 1) a higher amount of water in the soil, less vine water stress and more vigorous vine growth in the clean cultivated treatment compared to the others and 2) either an increase in vigor or concentration of N in vine tissues in response to the clover mix treatment. Biomass production and coverage of the soil by cover crops, as well as responses to treatments in the soil and vine often varied between sites. In general, cover crop treatments, including the clean cultivated control, had little effect on soil water content, vine water status, or vine vegetative growth. There was, however, a clear N affect from the clover mix treatment on vines, even without mechanical incorporation of cover crop residues. Vine leaf N and juice YANC both increased, and yield per vine and cluster weights both decreased in the clover mix treatment. However, the yield reductions were more pronounced in year two and only at one site. The increase in juice N was possibly an indirect effect of the lower yield, concentrating N in the remaining fruit. Results from this two year study indicate no apparent advantage to keeping the alleyways of established vineyards weed free with cultivation.
