- Author: Ben Faber
The latest Topics in Subtropics quarterly is out. Check it out. And subscribe for further editions. And check out the archive of past editions.
http://ceventura.ucanr.edu/news/Topics_in_Subtropics/
Topics in Subtropics
The U.C. Cooperative Extension Farm Advisors have combined to publish this quarterly combined newsletter. It will emphasize citrus and avocado, but will also discuss the minor subtropicals.
Issue | Articles | Type | Date Added |
---|---|---|---|
Topics in Subtropics - Volume 17 - Summer 2018 (470KB) |
TOPICS IN THIS ISSUE
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- Author: Gary S. Bender
Since our last article on high-density avocados appeared in Topics in Subtropics we have had a lot of questions from growers concerning the cost of installation of such a grove. We have also had a lot of interest from potential winegrape growers who think this might be the way to go given that wine-grapes use about 25% of the amount of water per acre compared to avocados. For higher quality wines growers use less water, but harvest lower pounds/acre.
I am currently advising a student at Cal State San Marcos who is doing a cost study for removing an avocado grove and installing a winegrape planting in San Diego County. Hopefully we will have an article on that in the near future.
We don’t have a lot of experience in high density avocados but we will try to show some costs to help you decide.
Clearing an older grove can get expensive. In a study we did in 2010 we found that it cost $40/tree to cut a tree down, haul the cut wood down to a firewood stack and haul to small branches to a chipper. The old stump is usually killed with a herbicide and left in place to rot. So, just to remove a tree at 109 trees/acre may cost $4,360 per acre.
For our high density planting we will be planting Hass avocados grafted on Dusa rootstock. We are using this rootstock because it appears from several trials to be a good rootstock for resistance to avocado root rot in the well-draining hillside soils in San Diego County.
The current price is about $30/tree (plus or minus). For a 10’ x 10’ spacing we would plant about 435 trees per acre, this would be an initial cost of $13,500/acre. We are not calculating the cost of a grove road installation, and we are assuming that the entire acre would be planted.
Planting cost: digging, planting, wrapping and staking trees takes about 15 minutes per tree. This includes carrying the tree to the hole. At 435 trees per acre, this would take about 109 hrs. At $14/hr, this would cost $1526/ac. Stakes (435) at $2.25/stake would cost $979/ac.
The irrigation system installation would cost $2,660/ac. This is based on an entire system being installed in a 20 acre block, divided by 20 to get the cost per acre.
There are quite a few other costs that you can see from our complete avocado cost study, but these basic costs will get the trees in the ground (Table 1).
Table 1. Basic costs for the installation of a high density avocado grove. |
|
Trees (Hass on Dusa rootstock) |
$13,500 |
|
|
Planting (digging, planting and wrapping) |
$1,526 |
|
|
Stakes |
$979 |
|
|
Irrigation system |
$2,660 |
|
|
Total |
$18,665/acre |
If you are thinking about planting 10 acres, then you would need $186,650 in the bank to get the trees in the ground. There will be some shifting of costs because this study does not include clearing or building of grove roads, and with grove roads you will be planting less numbers of trees/acre.
Will you make more money in the long run? That is the question we are trying to answer with our high density trial in Valley Center.
Reference
Bender, G.S. and E. Takele. 2010. A guide to estimate compensation for loss of a single avocado tree. University of California Cooperative Extension county publication AV 606.
Takele, E., Bender, G.S., and M.Vue. 2011. Avocado sample establishment and production costs and profitability analysis for San Diego and Riverside counties, conventional production practices. http://coststudies.ucdavis.edu/
- Author: Gary Bender
Since our last article on high-density avocados appeared in Topics in Subtropics (Vol. 10 no. 1, Spring 2012) we have had a lot of questions from growers concerning the cost of installation of such a grove. We have also had a lot of interest from potential winegrape growers who think this might be the way to go given that wine-grapes use about 25% of the amount of water per acre compared to avocados. For higher quality wines growers use less water, but harvest lower pounds/acre.
I am currently advising a student at Cal State San Marcos who is doing a cost study for removing an avocado grove and installing a winegrape planting in San Diego County. Hopefully we will have an article on that in the near future.
We don’t have a lot of experience in high density avocados but we will try to show some costs to help you decide.
Clearing an older grove can get expensive. In a study we did in 2010 we found that it cost $40/tree to cut a tree down, haul the cut wood down to a firewood stack and haul to small branches to a chipper. The old stump is usually killed with a herbicide and left in place to rot. So, just to remove a tree at 109 trees/acre may cost $4,360 per acre.
For our high density planting we will be planting Hass avocados grafted on Dusa rootstock. We are using this rootstock because it appears from several trials to be a good rootstock for resistance to avocado root rot in the well-draining hillside soils in San Diego County.
The current price is about $30/tree (plus or minus). For a 10’ x 10’ spacing we would plant about 435 trees per acre, this would be an initial cost of $13,500/acre. We are not calculating the cost of a grove road installation, and we are assuming that the entire acre would be planted.
Planting cost: digging, planting, wrapping and staking trees takes about 15 minutes per tree. This includes carrying the tree to the hole. At 435 trees per acre, this would take about 109 hrs. At $14/hr, this would cost $1526/ac. Stakes (435) at $2.25/stake would cost $979/ac.
The irrigation system installation would cost $2,660/ac. This is based on an entire system being installed in a 20 acre block, divided by 20 to get the cost per acre.
There are quite a few other costs that you can see from our complete avocado cost study, but these basic costs will get the trees in the ground (Table 1).
Table 1. Basic costs per acre for the installation of a high density avocado grove. It is assumed that land is cleared and ready to plant. Installations of grove roads are not considered. |
|
Trees (Hass on Dusa rootstock) |
$13,500 |
Planting (digging, planting and wrapping) |
$1,526 |
Stakes |
$979 |
Irrigation system |
$2,660 |
Total per acre |
$18,665 |
If you are thinking about planting 10 acres, then you would need $186,650 in the bank to get the trees in the ground. There will be some shifting of costs because this study does not include clearing or building of grove roads, and with grove roads you will be planting less numbers of trees/acre.
Will you make more money in the long run? That is the question we are trying to answer with our high density trial in Valley Center.
Reference
Bender, G.S. and E. Takele. 2010. A guide to estimate compensation for loss of a single avocado tree. University of California Cooperative Extension county publication AV 606.
Takele, E., Bender, G.S., and M.Vue. 2011. Avocado sample establishment and production costs and profitability analysis for San Diego and Riverside counties, conventional production practices. http://coststudies.ucdavis.edu/
- Author: Gary S. Bender
Water prices in San Diego County continue to increase and there is no end in sight, especially with periodic drought years and California losing some share of its Colorado River water. It is easy to see the response from growers; water is being turned off in many of our districts leaving acres and acres of dying trees. The water districts get nervous because there is not enough money coming in to cover their fixed costs, so they raise the price of water. And, they raise it again.
The math is simple. Some of our water districts are selling water to growers for $1200 - $1300 per acre foot. At a water requirement of about four acre feet per acre for avocados in the inland areas of San Diego County, water will cost $4800 - $5200/acre per year. If you are producing 5000 lbs per acre (the average yield in California for the last five years) and receive $1/lb for your fruit, you get less than your water costs. And that doesn’t consider labor costs, fertilizer, taxes, insurance, vehicle costs etc. Profits? Are you kidding?
Are we done? Either prices for our fruit have to increase, or we have to increase the yield per acre. As for prices, we don’t have control over market prices; they rise and fall with demand by consumers, on and off years in our groves and interference with Mexican, Chilean and now Peruvian imports.
Can we increase yield per acre? The private consultants and the farm advisors have spent our careers trying to help growers with proper irrigation scheduling and balancing out the pressures and flows, proper fertilization, controlling thrips and persea mites at the right time, and dealing with avocado root rot (which continues to be a huge problem). Despite good farming practices yields per acre have not increased dramatically for most growers. To be fair, some growers are doing quite well with good farming practices, good weather and good soil. but It will probably take a dramatic increase for most of the growers to stay in business in San Diego County.
I saw a dramatic increase in yield per acre recently in two groves, one in Temecula (owned by John Cornell) and one in the southern area of Escondido (owned by Steve Howerzyl). The Temecula grove produced over 30,000 lbs/ac in the sixth year from planting and the Escondido grove produced 24,195 lbs/ac in the fifth year. Both are high-density groves planted on a 10’ x 10’ spacing (435 trees/acre). This kind of production is exciting and might bring hope to avocado production for the future in San Diego County. Yield data is supplied in Table 1 and 2.
Table 1. Hass avocado yield data supplied by the grower for a high density planting in Temecula. 384 trees /acre = 0.88 acre. Yield data adjusted to pounds/acre.
2004 planted |
0 |
2005 |
0 |
2006 |
2,727 (est.) |
2007 |
3,636 (est.) |
2008 |
2,727 (est.) |
2009 |
4,545 |
2010 |
32,727 |
2011 |
4,318 |
Table 2. Hass avocado yield data supplied by the grower for a high density, non-pruned planting in Escondido. Yield data is supplied in pounds/acre.
2006 planted |
0 |
2007 |
0 |
2008 |
0 |
2009 |
5,080 |
2010 |
7,656 |
2011 |
24,195 |
However, both groves have problems!
The Temecula grove had a low fruit set in the spring of 2011. (This was the reason I was called out to look at it). Of course a large part of the problem is the inherent on/off cycle in avocados. However, in order to keep these trees in a high density situation without crowding, the grower had to prune the trees. In the late winter/early spring of 2011 every tree was pruned on all sides and topped at 8-9 feet. This effectively removed a lot of the fruiting wood and the trees had a reduced flowering and fruit set as a result. Remember, the Hass avocado flowers and sets fruit primarily on the outside of the tree canopy.
The Escondido grove was not pruned and all of the trees had grown into each other, creating an incredibly crowded grove. It was so crowded that the irrigator was complaining that he couldn’t get through the grove to check the sprinklers. The grower commented that his plan was to remove all of the trees in the eighth year and start over again according to the Hofshi idea that was suggested several years ago. (More on this later in this article).
I like the idea of close spacing for increasing yield per acre, but both groves need a good idea for maintaining the spacing and yet produce fruit every year. I proposed pruning in a three year rotation; the southwest side would be pruned the first year, the northeast side pruned in the second year, and the tree would be topped at eight feet in the third year. Then the whole process would start over again. By using this method there would always be fruiting wood on the tree. And it is an easy method to teach grove workers.
The only problem with this pruning idea is that we have never tried this in a trial. This is why I proposed a trial to the California Avocado Commission to set up a high density trial with Hass and Lamb Hass, comparing two pruning methods: complete pruning each year vs. the three year rotation idea. The Commission liked the idea and they funded the trial, along with grower education classes. The trial and the classes will commence in the summer of 2012.
High Density Avocado Plantings. High density plantings were proposed in California in an article in Subtropical Fruit News by Fallbrook grower Reuben Hofshi in 1999. Hofshi stated that the underlying premises for planting on close spacing were:
- To compete in the international market with low avocado prices will require more efficient farming and a significant increase in productivity.
- Young trees are vigorous, produce large fruit early, have better canopy to root ratio and reach peak productivity approximately by 7 to 8 years.
- Smaller trees are easier and less expensive to harvest, particularly when sixe picking is done, and are very amenable to snap harvest.
- Spraying for different pests may become a way of life; smaller trees are probably the only ones that could be efficiently sprayed by ground rigs in hilly terrain.”
In the last few years in California we are seeing a severe reduction in our labor force for harvesting. Pickers are getting picky; they have cell phones and they can call around to find the groves that can be harvested from the ground. Lugging a ladder around on a steep slope is just not desirable, and they can make a lot more money if they don’t have to use ladders.
Researchers in other countries have been interested in high density plantings and many of the new plantings in Chile are planted in high density patterns. Ernst and Ernst, growers and nursery owners in South Africa maintain that high density can only be successful if the trees are pruned to a central leader immediately after planting, and maintained in that manner through the life of the tree. They are working with a Hass-like variety known as ‘Maluma’ which has more of a natural central leader than does ‘Hass’.
Pruning. Growers in California have traditionally avoided pruning. Other than stumping periodically if the trees get too tall, not much pruning is done. One of the reasons is the labor to prune. It is difficult to determine from work done in foreign countries how much labor is involved in high density because many of the areas use the growth retardant paclobutrazol, a chemical we are not allowed to use in the U.S. We will keep track of our labor costs in our trial and will report this to growers interested in high density plantings.
Can avocado growers survive in a county with high priced water? Possibly. High density plantings may be one solution to a really serious problem. But growers must continue with good farming practices such as a complete leaf analysis each year along with proper irrigation scheduling.
Literature Cited:
Hofshi, R. 1999. High density avocado planting – an argument for replanting trees. Subtropical Fruit News. Vol. 8 (1).
Ernst, Z.R. and A.A. Ernst. 2011. High density planting: a case study of central leader pruning with Maluma. Proc. VII World Avocado Congress 2011, Cairns, Australia 5-7 Sept. 2011.
Avocado Farming with High Water Costs