As part of the SW Ag Summit that is taking place in Yuma this week, we are conducting a breakout session on Thursday, 22 February 2024 titled “Colorado River Water Shortage: Agricultural Perspectives”.  This session will start at 9:30 a.m. in MAC 106 at the Arizona Western College campus.
This session will provide a brief review of the background, the current situation on the Colorado River and very importantly it will include an outlook on the current discussions among the basin states to negotiate a new compromise for the guidelines of use under conditions of water shortage.  These new guidelines will go into place at the end of 2026.  The immediate goal is to draft proposals by March 2024.
This breakout session at the Southwest Ag Summit will provide up to date information and firsthand insight into the process.  The participants are uniquely qualified to offer valuable perspectives on these issues.  This will be a very good session.
The program outline is as follows:


2024 Southwest Ag Summit
Educational Program
Thursday – February 22, 2024
 
COLORADO RIVER WATER UPDATE AND PROJECTIONS
Location: MAC106
 
9:30-10:00a.m. Colorado River Background and Introduction 
Elston Grubaugh, Wellton-Mohawk Irrigation and Drainage District
 
10:00–10:30a.m. Colorado River Situation and Future Projections
Bart Fisher, Palo Verder Irrigation District and State of California Colorado River Water Board member, Fisher Ranch, Blythe CA
 
10:30–11:00a.m. Colorado River Situation and Future Projections
Hank Auza, Yuma County Water User’s Association President and Yuma Ag Water 
Coalition representative, Barkley Co. of Arizona, Yuma AZ
 
11:00–11:30a.m. Question & Answer / Discussion
 
Moderator: Elston Grubaugh, Wellton-Mohawk Irrigation and Drainage District

I hope you are frolicking in the fields of wildflowers picking the prettiest bugs.

I was scheduled to interview for plant pathologist position at Yuma on October 18, 2019. Few weeks before that date, I emailed Dr. Palumbo asking about the agriculture system in Yuma and what will be expected of me. He sent me every information that one can think of, which at the time I thought oh how nice!

When I started the position here and saw how much he does and how much busy he stays, I was eternally grateful of the time he took to provide me all the information, especially to someone he did not know at all.

Fast forward to first month at my job someone told me that the community wants me to be the Palumbo of Plant Pathology and I remember thinking what a big thing to ask.. 

He was my next-door mentor, and I would stop by with questions all the time especially after passing of my predecessor Dr. Matheron. Dr. Palumbo was always there to answer any question, gave me that little boost I needed, a little courage to write that email I needed to write, a rigid answer to stand my ground if needed. And not to mention the plant diagnosis. When the submitted samples did not look like a pathogen, taking samples to his office where he would look for insects with his little handheld lenses was one of my favorite times. 

I also got to work with him in couple of projects, and he would tell me “call me John”. Uhh no, that was never going to happen.. until my last interaction with him, I would fluster when I talked to him, I would get nervous to have one of my idols listening to ME? Most times, I would forget what I was going to ask but at the same time be incredibly flabbergasted by the fact that I get to work next to this legend of a man,  and get his opinions about pest management.  Though I really did not like giving talks after him, as honestly, I would have nothing to offer after he has talked. Every time he waved at me in a meeting, I would blush and keep smiling for minutes, and I always knew I will forever be a fangirl..

Until we meet again.

It’s October and planting season is well underway. When planting lettuce, uniform seed spacing is critical for efficient, economical crop thinning. Due to their lack of precision, automated lettuce thinning machines cannot eliminate lettuce plants that are spaced closer than about 1 1/8” apart. These closely spaced plants, commonly referred to as “doubles”, must be carefully removed by hand which is time consuming and expensive.

Several years ago, we conducted trials examining the influence of planter travel speed on seed spacing uniformity (Siemens and Gayler, 2016). In the study, two types of planters - a vacuum planter (Stanhay 785 Singulaire) and a belt planter (Stanhay 870) were tested with pelleted lettuce seed at travel speeds of 1.0, 1.5, 2.0 and 2.5 mph at the Yuma Agricultural Center. Vacuum planter test results showed that the percentage of “difficult to thin” spacings, defined seeds spaced less than 1.1” apart, increased from about 5% to 10% as speed increased from 1.0 mph to 2.5 mph (Fig. 1). Concomitantly, the percentage of seeds “precisely placed” within 0.5” of the target location (i.e., 2.0 ± 0.5”) decreased from 70% to less than 45%, and the percentage of skips increased from 7% to 30%. Variability of seed spacing uniformity as measured by the coefficient of variation (COV) of seed spacings also increased.

Similar declines in planter performance were found with the belt planter (Fig. 2). As travel speed increased from 1.0 to 2.5 mph, the percentage of difficult to thin spacings increased from 2% to 10%, precise spacings decreased from 93% to 65% and skips increased from 2% to 8%.

For both planter types, there was a significant decline in performance as speed increased from 1.5 mph to 2.0 mph, a difference in speed of only 0.5 mph. These results suggest that it is prudent to check planter performance at the chosen operating speed prior to establishing an entire block to ensure that seed spacing uniformity, not just the number of seeds per foot, is acceptable.

In short, the study showed that planter travel speed had a significant effect on seed spacing uniformity and difficult to thin, close spacings - the higher the speed, the poorer the performance.

You may be asking what is the reason for the phenomenon observed? A logical explanation is that seeds are traveling at the speed of the planter when they are released and tend to “bounce and roll” in the direction of travel when they hit the soil surface. Thus, the higher the travel speed, the further seeds bounce and roll resulting in increased seed spacing variability.

References

Siemens, M.C., & Gayler, R.R. (2016). Improving seed spacing uniformity of precision vegetable planters. Appl. Eng. Agric., 32(5), 579-587

Fig. 1. Seeding performance of a vacuum vegetable planter sowing lettuce when
operated at four travel speeds.


Fig. 2. Seeding performance of a belt vegetable planter sowing lettuce when operated at
four travel speeds

It is reported that the herbicidal activities of Plant Growth Regulators (PGRs) were discovered in the 1940’s.  Then, investigators in England and in the United States started their research on this type of herbicides¹.

Some of these substances are hormones produced naturally by the plants and other are synthetically produced. Examples of naturally occurring growth regulators are gibberellins, auxin, cytokinin. Some stimulate stem elongation and cell elongation. One of the first synthetic selective herbicides developed is 2, 4-D (2,4-dichlorophenoxiacetic acid).
PGRs are used extensively for broadleaf weed control in grass crops in this region such as grain production, bermudagrass, alfalfa, cole crops, sugarbeet, forages, and turf grasses. These herbicides upset the natural balance of the hormones that controls cell division, cell enlargement, protein synthesis, and respiration. That is why this group of herbicides is sometimes called the “hormone herbicides”². In our area growers are very careful using these products due to volatility with our summer temperatures and the problems caused to sensitive crops.

According to a report from Texas A&M “phenoxy growth regulator herbicides are reported to have the least plant activity and soil residual activity; the carboxylic acids generally have the most. Broadleaf crops and turf grasses should not be planted into soils recently treated with these herbicides because they severely inhibit seedling emergence”².
 
Some PGRs:

Family	Common Name	Trade Name
phenoxy	2,4-D	Pasture pro, others
	2,4-DB	Butyrac Butoxone Rhomene
	MCPA	Rhonox Chiptox Battleship
	MCPP MCPB	Several names Several names
benzoic acid	dicamba	Banvel Clarity
carboxylic acid	Picloram	Tordon 22K
	Clopyralid	Stinger Reclaim
	triclopyr	Remedy Grandstand
	quinclorac	Facet

 

 

Results of pheromone and sticky trap catches can be viewed here.
 
Corn earworm:             
CEW moth counts remain  at low levels  in all areas, well below average for this time of year. 
 
Beet armyworm:          
Trap increased areawide; about average compared to previous years.
 
Cabbage looper:          
Cabbage looper counts increased to seasonal highs; slightly below average for this time of season.
 
Diamondback moth:      
DBM moth counts decreased in most areas. About average for this time of the year.
 
Whitefly:                      
Adult movement negligible, average for late winter. 
 
Thrips:                          
Thrips adult counts increased in south Gila Valley, down in all other locations. Below average compared with previous years.
 
Aphids:                        
Aphid movement decreased in all area; below average for mid-March.
 
Leafminers:                  
Adults remain low in most locations, average for March.