Soybean Yield along the Texas Gulf Coast during Periods of Variable Rainfall as Influenced by Soybean Cultivar and Planting Date

Soybeans (Glycine max) can be planted along the upper Texas Gulf Coast from mid-March through May to take advantage of early season rains and to complete harvest before hurricane season and fall rains become a problem. When average to above average rainfall was received in May through July, yields were greater with the early April to mid-April planting; however, under high rainfall conditions throughout the season, the mid-April to early May planting produced the highest yields, with yields of over 4000 kg/ha. When rainfall was below normal, late March to early April plantings produced the greatest yields. When rainfall was above average, soybeans took longer to reach harvestability regardless of cultivar or plant dates, while under drought conditions the interval between planting and harvest was reduced. However, when planting was delayed, there was a greater risk of detrimental late-season effects from southern green stink bug (Nezara viridula) or the brown stink bug (Euschistus heros).


Introduction
Soybeans (Glycine max) are grown along the upper Texas Gulf Coast and this area has become the largest soybean production area in the state.Most of the soybeans are planted from mid-March through May and are categorized as early soybean production system (ESPS) plantings.Production components such as planting date and variety can be manipulated to counter the effects of various environmental factors on soybean development and yield [1][2][3][4][5].The rationale for planting early is to avoid reproductive growth during periods of high temperatures in July and August, and to take advantage of late spring and early summer rains for maximum flowering, seed set, and seed filling [4,6].Stress can reduce soybean yield by reducing the number of pods, seeds, and seed mass [7,8].Both determinate and indeterminate soybean cultivars have reduced growth rates under drought stress and resume normal growth rates when such stress is removed [8].This may be an important growth attribute to consider if producers expect considerable soil moisture deficits due to short, intermittent droughts during the growing season [5].
The objectives of this research were to identify the components of soybean production encompassing cultivar and planting date that could increase soybean yield along the upper Texas Gulf Coast depending on moisture conditions.This information will aid producers in adapting planting practices that will improve soybean yield and reduce the chance of yield reductions. in the Texas soybean production area along the upper Texas Gulf Coast.These two areas are separated about 145 km apart (east to west).Soil types at the Wharton County locations were a Lake Charles Clay with a pH of 7.2, while the Victoria County locations were a Houston black clay with a pH range of 7.4 to 7.7.These studies were in different fields each year but in the same general area.Fertilizer was applied by the grower as needed according to Texas Cooperative Extension recommendations for soybean.Plots were maintained weed-free throughout the growing season using a preemergence application of either a premix of S-metolachlor plus metribuzin (Boundary, Syngenta Crop Protection, Greensboro, NC, USA) at the rate of 1.12 kg ai/ha or pendimethalin (Prowl H 2 o, BASF Corp, Florham Park, NJ, USA) plus imazethapyr (Pursuit, BASF Corp., Florham Park, NJ, USA) at 1.06 kg ai/ha plus 0.07 kg ai/ha, respectively, depending on location.Grass and broadleaf weed escapes were controlled with postemergence applications of clethodim (Select, Valent USA Corp., Walnut Creek, Calif) at 0.21 kg ai/ha and acifluorfen (Blazer, BASF Corp., Research Triangle Park, NC, USA) 0.84 kg ai/ha or lactofen (Cobra, Valent USA Corp., Walnut Creek, Calif) at 0.22 kg ai/ha, respectively.Postemergence herbicide applications included Agridex (Helena Chemical Co., 6075 Poplar Ave., Memphis, TN, USA) at the rate of 0.25% v/v.The number of postemergence herbicide applications varied from year to year depending on weed emergence problems.

Materials and Methods
Soybean cultivars (mid Group IV through early Group V) selected for the study were those that had shown promise in previous studies or had produced well in other soybean producing regions of Texas or surrounding states.Soybean seed was planted with a vacuum planter (Monosem ATI, Inc., Lenoxa, Kan) to provide a uniform seeding rate of 33 seed/m (55,847 seeds/ha) on a pair of rows with 97 cm centers.Three planting dates, approximately two to three weeks apart, were used each year with the first date around 15th of March depending on weather conditions.

Determining Cultivar Maturity and
Harvesting.Physiological maturity of soybean seed occurs when the accumulation of dry weight ceases [9].This stage first occurs when the pod turns yellow or has completely lost their green color.With favorable drying weather, the soybeans lose moisture quickly [9].For all cultivars, paraquat at 0.28 kg/ha was applied when at least 70% of the seed pods had reached a mature brown color or when the seed moisture was 25% or less [10].These guidelines were adopted from the U. S. Gramoxone Inteon label [10] and used on all cultivars.Within 3 to 5 d when seed moisture was approximately 12%, plots were harvested with a small plot combine.At the 3 to 5 d interval, additional cultivars were checked for color and moisture content and if at the desired level, sprayed with paraquat.

Experimental Design and Data Analysis.
The treatment design was a factorial arrangement using a randomized complete block design with a planting date and soybean cultivars as factors.To reduce harvesting difficulties, planting dates were kept separate by block and cultivars randomized within planting dates.Replicates were separated by 1.7 m, while planting dates were separated by 6.4 m.Each cultivar was replicated three times within each planting date with a soybean cultivar plot size of 2 rows (97 cm centers) by 9.1 m long.An analysis of variance was performed using the ANOVA procedure for SAS (SAS Institute.1998.SAS user's guide.SAS Inst., Cary, NC) to evaluate the significance of planting date and soybean cultivar on soybean yield, pod height, and time interval from planting until harvest.The Fishers Protected LSD at the 0.05 level of probability was used for separation of mean differences.Since environmental conditions were different at each location and soybean cultivars varied from year to year due to availability, data are presented separately by location and years.

Results and Discussion
3.1.Soil Temperature at Planting.Soil temperatures were cooler at the Wharton County location than at the Victoria location at the early planting date (March) with the exception of 2009, while at the mid and late plantings, soil temperatures were cooler at the Victoria County location than at the Wharton location with the exception of the mid planting date in 2009 (Table 1 3).An increase in yield from the first to the second planting was noted with CL 4955RR, DG 33B52RR, DG 37G52RR, DP 5110RR, HBK 4926, HBK 5025, HBK 5123RR, NK 452, and NKS 49-T1RR; however, yields with these cultivars decreased below the March 15 levels with the April 18 planting date.Several soybean cultivars planted on April 18 produced over 2400 kg/ha with Garst 4999RR producing over 3300 kg/ha.The cultivar HBK 5894 produced only 336 kg/ha while HBK 4926, HBK 5025, and NK 452 produced less than 850 kg/ha.The extremely low yield with HBK 5894 was due to this cultivar being a later maturing cultivar compared with the higher yielding late 4 or early 5 maturity group cultivars.Since seed filling begins approximately 80 days after planting [11] and moisture availability is very important to pod development, the above average rainfall in July probably accounted for the high yields with soybean planted early to mid April.Demand for water and nutrients is large throughout the rapid seed filling period and during this period, the soybeans acquire approximately 50% of the N, P, and K by redistribution from vegetative plant parts and about 50% by soil uptake and nodule activity [9].
Victoria County yields were low for all planting dates due to below average rainfall for March and April (Table 2).Although above average rainfall was received in May and July, the soybeans never fully recovered.When planted on March 14, 38% of the cultivars produced less than 800 kg/ha (Table 3).Yields did not improve with the second planting and many cultivars produced less than 600 kg/ha at the third planting.Only HBK 5025 produced over 1200 kg/ha at the first and second harvest; however, at the third harvest yield was less than 460 kg/ha.3.3.2. 2007.Soybean yields, especially in Wharton County, were above average due to the excellent moisture conditions (Table 2) coupled with moderate summer temperatures (data not shown).At the April 17 planting date in Wharton County, soybean yields were over 2600 kg/ha for all cultivars with the exception of DG 33Y45RR, DG 3463RR, Santa Rosa, and Vernal (Table 4).Santa Rosa and Vernal are cultivars that are commonly used in the Lower Rio Grande Valley region of Texas and have produced excellent yields in that area of the state (A.Scott, personal communication).Soybean yields of over 4900 kg/ha were produced with HBK 5025, while HBK 5941 produced over 4200 kg/ha.Soybean yields at the May 2 planting date increased from the April 17 planting date for many cultivars with the greatest yield increase (108%) noted with Vernal.Several cultivars including HBK 4926, HBK 5025, HBK 5894, and HBK 5941 showed a yield decrease with the later planting date.The excellent yields with the May plantings can be attributed to the above average rainfall during the growing season (Table 2).This late planting occurred in a year with above average rainfall and fruiting occurred when soil moisture was adequate.In previous research across the southern US, the planting of early-maturing cultivars was shown to be less important under conditions of more plentiful rainfall during the growing season, especially during the seedfill stage, than in years when rainfall was below normal [1,7,12].
At the Victoria County location, yields of over 2000 kg/ha for all cultivars, with the exception of Santa Rosa, were noted for the March 28 planting date (Table 4).The highest yield was with HBK 5425RR which produced over 3300 kg/ha.Yields at the second planting remained approximately the same or decreased for all cultivars with the exception of NC+ 4A81RR, NC+ 4A65RR, and Pioneer 94M71RR which showed a yield increase of 16 to 24%.Delaying planting until May 1 resulted in a yield decrease from the mid April planting date for all cultivars.Excessive rainfall during July accounted for some of the yield reductions noted with the later planting dates.It was estimated that waterlogging for as little as 2 d at the V4 growth stage can reduce soybean grain yield by 18% [11], while the reduction was 26% at the R2 stage [13].According to VanToai et al. [14], waterlogging for 4 wk at R1 to R2 stages reduced the average grain yield of 84 soybean cultivars by 25%.Heatherly and Pringle [15] reported that 1 to 2 d of waterlogging caused by flood irrigation did not reduce soybean yield, but longer periods of waterlogging resulted in significant yield losses.Sullivan et al. [16] reported a negative correlation of flooding duration with soybean population, plant height, number of pods, and soybean yield.Also, soybean rust (Phakopsora pachyrhizi) was found in the test plots in early July and this may have contributed to reduced yields with the later planted soybeans.Ashley and Ethridge [7] reported that lack of moisture had more of an effect on soybean yield when drought occurred from flowering to physiological maturity compared with the emergence to flowering period.Daytime temperatures were typical for both areas with 32 to 38 • C for July and August (data not shown).The high temperatures undoubtedly also inhibited both vegetative and reproductive growth during the season [9].

2009.
Rainfall was below normal throughout the growing season (Table 2).Yields at the Wharton County location decreased as planting date was delayed due to lack of soil moisture (Table 6).Yields at the first planting were at least 1400 kg/ha for all cultivars with the exception of DG 36Y48RR, HBK 4926, HBK 5941, HBK 5123RR, HBK 5425RR, Pioneer 95Y20RR, TV 49R17RR, and Vernal.At the second planting, yields decreased for all cultivars with the exception of AG 5503RR, DG 36Y48RR, HBK 5941, HBK 5123RR, HBK 5425RR, Pioneer 95Y20RR, TV 55R15RR, and Vernal.At the third planting no cultivar yielded greater than 800 kg/ha.
Although rainfall was below normal at the Victoria County location, soybean yields were above 1400 kg/ha for many cultivars at the first planting date (Table 6).Several low rainfall events occurred at this location which maintained plant growth during the critical pod filling period.Yields at the second planting for many cultivars were not different from the first planting; however, yields did increase from the first to second planting for AG 4907RR, AG 5503RR, Croplan 4955RR, DG 37P49RR, DK 4866RR, DK 5068RR, NKS 49W6RR, NKS 51T8RR, TV 46R19RR, and TV 49R17RR while HBK 5941 showed a yield decrease (Table 6).All cultivars showed a decrease in yield, with the exception of HBK 4926RR and TV 49R17RR, when planting was delayed until April 21.
Although early maturing cultivars usually produce lower yields when compared with full-season cultivars at later planting dates, early planted, early maturing cultivars may produce superior yields by avoiding summer drought conditions [1,11,17,18].These cultivars would have passed the critical reproductive stages before stored moisture is exhausted, which ameliorates the effects of drought on crop growth [17].

Number of Days from Plant to
Harvest.Generally, the later the planting date, the shorter the interval between soybean planting and harvest [19].However, in the year with above average rainfall, trends toward a greater number of days from planting to harvest were noted.This is important in that the longer the plant is exposed to the elements, whether it is increasing chance of a hurricane or an increase in green (Nezara viridula) or brown (Euchistus heros) stinkbug populations, the greater the chance of yield loss.

2006.
At the Wharton County location, soybeans planted at the early plant date took 126 to 139 days from planting to harvest with the exception of NKS 49-T1RR which required 152 days (Table 7).At the April 4 plant date, most cultivars, with the exception of NKS 49-T1RR, were harvested 119 to 132 days after planting, while at the last planting date, days from planting to harvest were more variable and ranged from 118 to 148 days.The soybean cultivar NKS 49-T1RR took the greatest number of days from planting to harvest for all planting dates.At the Victoria County location, the interval from planting to harvest was lower than the Wharton County location (Table 7).At the first planting, days from planting to harvest ranged from 106 to 125 days while at the second planting date, the interval was 111 days for all cultivars with the exception of DG 37G52RR and NKS 49-T1RR which required 140 days.At the April planting date, Garst 4612RR and HBK 5123RR required only 97 days while NKS 49-T1RR required 132 days.All other cultivars required 126 days from planting to harvest.

2007.
The interval between plant date and harvest date was longer than in 2006, and this was due to the above average rainfall during the growing season (Table 2) and below normal temperatures (data not shown).These weather conditions slowed plant growth and therefore extended the growing season [7,12,19].In Wharton County when soybeans were planted on April 17, the interval between plant At Victoria County, the interval from planting to harvest decreased when planting date was delayed from March 28 to April 16 but increased when planting date was delayed until May 1.At the early planting date all cultivars required 124 to 138 days with the exception of Vernal which required 147 days.This compares with a shortened interval of 90 to 113 days for all soybean cultivars except Vernal planted on April 16.When planting was delayed until May 1, the interval from planting until harvest for most cultivars was at least 142 days; however, DG 33Y45RR, DG 3463RR, NC+ 4A65RR, NKS 46U6RR, and Pioneer 94M71RR required only 113 days.The extended interval for the later planted soybeans were due to the abnormally high rainfall received in July (Table 2), which slowed plant growth and development [20,21].When the soybean plant reaches beginning maturity, warm weather does not hasten maturity unless it causes water deficit stress and maturity is more strongly influenced by photoperiod [9].a For all cultivars, paraquat at 0.25 kg/ha was applied when at least 70% of the seed pods had reached a mature brown color and when seed moisure was 25% or less.Cultivars were harvested within 3 to 5 d when seed moisture was approximately 12%.No yield obtained with Santa Rosa.b Abbreviations: C, conventional cultivars; RR, Roundup Ready cultivars.
In Victoria County, at the March 17 planting date, the interval was 105 days or less with all cultivars except Croplan 5007RR, HBK 5025, HBK 5425RR, NKS 52F2RR, and Vernal which required 129 to 140 days from planting until harvest (Table 9).When planting date was delayed until March 28, the interval decreased for HBK 5025, Vernal, and all Hoegemeyer cultivars with the exception of Hoegemeyer 487RR.When planting date was delayed until April 21, the interval between planting and harvest varied from 114 to 128 days except for the Hoegemeyer cultivars 422RR, 425RR, and 480RR which required 105 days from planting until harvest (Table 9).Heatherly [2] reported that near Stoneville, MS, cultivars planted before 16 April took an average of 5 days longer to reach R1 (beginning bloom) than did cultivars planted after 16 April to 1 May.When cultivars were planted from May through June, the number of days to R1 decreased as planting date was delayed.Heatherly [2] concluded that the reproductive period of later-maturing cultivars would occur later in the season when stored soil moisture has been reduced, probability of rainfall is lower, and air temperatures are higher.

Pod Height.
Pods that are produced along the lower nodes of the main stem may be left in the field at harvest due to the inability of harvest equipment to reach these pods.For every 1.3 soybeans left on a plant (at these populations), a loss in yield of 67 kg/ha occurs (A.Klosterboer, personal communication).Pod height was measured in 2008 and 2009.
3.5.1. 2008.At the Wharton County location, only HBK 5425RR, NC+ 5A31RR, and Vernal had a higher pod attachment point than the other cultivars at the first planting, while a For all cultivars, paraquat at 0.25 kg/ha was applied when at least 70% of the seed pods had reached a mature brown color and when seed moisure was 25% or less.Cultivars were harvested within 3 to 5d when seed moisture was approximately 12%.
at the second planting date several cultivars had a higher pod attachment point than the Hoegemeyer cultivars with the exception of Hoegemeyer 510NRS (Table 11).At the third planting date, Vernal had the highest point of attachment followed by HBK 5425RR and NC+ 5A31RR.Again, the Hoegemeyer cultivars, with the exception of Hoegemeyer 487NRS, had the lowest point of pod attachment.At the first planting in Victoria County, Vernal had the highest point of attachment, while DP 5335RR, DP 5414RR, and NKS 49H7RR were higher than all cultivars with the exception of HBK 4926, HBK 5025, HBK 5425RR, NKS 52F2RR, and Pioneer 94M80RR (Table 11).At the second planting, similar trends were noted with Vernal while several cultivars had point of attachments 5.8 cm or greater (DP 5335RR, DP 5414RR, HBK 5123RR, HBK 5425RR, Hoegemeyer 425NRS, and Hoegemeyer 510NRS).
At the third planting, DP 5414RR had the highest point of attachment, while DP 5335RR and HBK 5123RR had a higher point of attachment than most cultivars.

2009.
Generally, for cultivars that were common to plantings in both years, the point of first pod attachment was higher at both Wharton and Victoria Counties than seen in 2008, and this was the result of dry conditions.At the Wharton County location, at the first planting, HBK 5941 had the highest attachment point while Vernal was not different from twelve other cultivars (Table 12).Similar trends were noted with HBK 5941RR and Vernal at the second planting (Table 12).At the April 27 planting date, only AG 5304RR, AG 5606RR, DK 4866RR, Pioneer 95Y20RR, and TV 54R28RR point of attachment was less than 10 cm above the soil.At the first planting in Victoria County, all cultivars with the exception of AG 5503RR, DK 4866RR, DK 5068RR, NKS 48C9RR, and TV 49R17RR produced a point of attachment greater than 6 cm above the soil (Table 12).At the April 6 planting date, AG 4907RR, DK 4866RR, HBK 5425RR, NKS 48C9RR, and all Terrell cultivars, with the exception of TV 55R15RR, produced the lowest pod set.At the April 21 planting date, Vernal produced an extremely high first pod set (29.7 cm); however, all cultivars with the exception of AG 5803RR, Pioneer 94Y90RR, and TV 54R28 produced a pod attachment at least 10.0 cm above the soil.

Summary
Some cultivars which have produced good to excellent yields in other soybean growing areas failed to produce under growing conditions found along the upper Texas Gulf Coast.Vernal, a cultivar that has produced excellent yields of over 3300 kg/ha under irrigated conditions in the Texas Lower Rio Grande Valley (A.Scott, personal communication), has been inconsistent under growing conditions found in this area.Also, the length of time from planting until harvest is an issue for producers who are concerned with stink bug population increases after grain sorghum (Sorghum bicolor L. Moench) harvest and the increased chance of hurricanes as the season progresses.
An advantage with growing Vernal is the height of the first pod set which allows for an easy harvest without any loss of soybeans pods.Many cultivars produce pods which are too low to the ground and the combines used to harvest the beans cannot cut the stem close enough to the ground to harvest all the pods.Under normal rainfall or whenever drought conditions occurred, a late March to mid-April plant date provided the best timing to optimize soybean yield regardless of cultivar (MG IV or V) for soybeans planted along the Texas Gulf Coast with a 28 to 29 • N latitude.In earlier work, Grichar et al. [19] had reported similar results under normal rainfall conditions with different cultivars than used in this study.Under less than optimum growing conditions due to dry conditions, the early plantings took advantage of available soil moisture and produced yields of at least 1300 kg/ha.In a year of late summer rains, a May plant date produced excellent yields; however, stink bugs can become a problem.However, growers do not have the luxury of knowing moisture conditions before they plant so they should rely on data for a "normal" year.In contrast, Heitholt et al. [12] reported that a mid-March planting date was not desirable for north Texas (33 • N latitude) due to stand loss and poor seedling growth associated with cold and wet weather conditions.They concluded that waiting until mid-May to plant soybeans in that region was less successful than planting in April.Bowers [1] also reported on similar work

Table 1
Planting dates in Victoria County in 2006 were March 14, March 28, and April 11; in 2007, March 28, April 16, and May 1; in 2008, March 17, March 28, and April 21; in 2009, March 23, April 6, and April 21.In 2006, planting dates in Wharton County were March 15, April 4, and April 18; in 2007, April 17 and May 2; in 2008, March 24, April 8, and April 23; and 2009, March 24, April 7, and April 24 ( ). Planting dates in 2007 were either delayed or eliminated due to above normal rainfall which was received during the normal March to April planting window and which prevented entry into fields.Pod height was measured in 2008 and 2009 prior to harvest with measurements taken from ground level to the point of attachment of the first pod attached at the lowest node.Five plants per plot were measured and an average recorded.
). 3.2.Rainfall.Rainfall amounts for the growing season were variable for both areas (Table 2).Rainfall in 2006 for both locations was below normal in March, April, June, and August but were above average in May and July in Victoria County and July in Wharton County.Rainfall for 2007 can be characterized as exceptionally wet with high rainfall amounts for July at both locations.Both 2008 and 2009 can be classified as exceptionally dry years with 46 to 61% of the normal rainfall for March through August time period.In 2008, only July in Victoria County and August in Wharton County experienced above normal rainfall while in 2009 only the month of April in Wharton County experienced above average rainfall (Table 1).The above normal rainfall for the respective dates in 2008 came too late to be of any help during the 2008 growing season.

Table 2 :
Monthly rainfall during the growing season at the study locations.

Table 3 :
Yield response of soybean cultivars to planting dates in Wharton and Victoria Counties, 2006.
a Abbreviations: (C), conventional cultivars; MG, maturity group; RR, Roundup-Ready cultivars.b Cultivar DG 5066RR not planted at Victoria County.Other locations or planting dates with "-" indicates not harvested.

Table 4 :
Yield response of soybean cultivars to planting dates in Wharton and Victoria Counties, 2007.
a Abbreviations: (C), conventional cultivars; MG, maturity group; RR, Roundup-Ready cultivars.b Santa Rosa and Vernal are not grouped into any maturity group (A.Scott, personal communication).No yield obtained with Santa Rosa.Delaying planting date until April 8 resulted in a significant increase in soybean yield for all cultivars with the exception of Croplan 4955RR, HBK 4926, and all Hoegemeyer cultivars.However, when planting date was delayed until April 23, these cultivars, with the exception of Croplan 4955RR and Hoegemeyer 510NRS, showed a yield increase over the two earlier planting dates.A decrease in yield from

Table 5 )
. Delaying planting date until March 28 resulted in an increase in yield over the March 17 planting date for Croplan 5007RR, DP 5414RR, HBK 4926C, HBK 5123RR, HBK 5425RR, NKS 49H7RR, NKS 49W6RR, NKS 52F2RR, and Vernal.Further delaying planting date until April 21 decreased soybean yields to less than 1300 kg/ha for all cultivars.

Table 5 :
Yield response of soybean cultivars to planting dates in Wharton and Victoria Counties, 2008.
a Abbreviations: (C), conventional cultivars; MG, maturity group; RR, Roundup-Ready cultivars.b Vernal is not grouped into any maturity group (A.Scott, personal communication).c Cultivars Croplan 4757RR, NC+ 5A31RR, and Pioneer 94M71RR not planted in Victoria County.A "0" indicates no yield obtained with that cultivar.

Table 6 :
Yield response of soybean cultivars to planting dates in Wharton and Victoria Counties, 2009.
a Abbreviations: (C), conventional cultivars; LL, Liberty Link cultivars; MG, maturity group; RR, Roundup-Ready cultivars.A "-" indicates cultivar not harvested; "0" indicates no yield for that cultivar.b Vernal is not grouped into any maturity group (A.Scott, personal communication).

Table 7 :
Days from planting to harvest, 2006.For all cultivars, paraquat at 0.25 kg/ha was applied when at least 70% of the seed pods had reached a mature brown color and when seed moisure was 25% or less.Cultivars were harvested within 3 to 5 d when seed moisture was approximately 12%.Cultivar DG 5066RR not planted at Victoria County.Other locations or planting dates with "-" indicates not harvested.

Table 8 :
Days from planting to harvest in 2007.

Table 9 :
Days from planting to harvest in 2008.

Table 10 )
. At the April 6 planting date, HBK 5123RR and Vernal required 126 days, while AG 5503RR, DG 37P49RR, and HBK 494LL only required 98 days.All other cultivars required 107 to 112 days from planting to harvest with the exception of AG 5606RR, AG 5803RR, Croplan 4955RR, and NKS 48C9RR which required 121 days.At the April 21 planting date, AG 5803RR, HBK 5941C, HBK 5425RR, and

Table 10 :
Days from planting to harvest, 2009.

Table 11 :
Pod height from ground to first pod with three planting dates at two locations in 2008.