Inheritance of glyphosate resistance was investigated in hairy fleabanepopulations from California as part of providing the information needed topredict and manage resistance and to gain insight into resistance mechanism(or mechanisms) present in the populations. Three glyphosate-resistantindividuals grown from seed collected from distinct sites near Fresno, CA,were crossed to individuals from the same susceptible population to createreciprocal F1 populations. A single individual from each of the F1 populations was used to create a backcross population witha susceptible maternal parent, and an F2 population. Based ondose response analyses, reciprocal F1 populations were notstatistically different from each other, more similar to the resistantparent, and statistically different from the susceptible parent, consistentwith nuclear control of the trait and dominance to incomplete dominance ofresistance over susceptibility in all three crosses. Glyphosate resistancein two of the three crosses segregated in the backcross and the F2 populations as a single-locus trait. In the remainingcross, the resistant parent had approximately half the resistance level asthe other two resistant parents, and the segregation of glyphosateresistance in backcross and F2 populations conformed to atwo-locus model with resistance alleles acting additively and at least twocopies of the allele required for expression of resistance. This two-locusmodel of the segregation of glyphosate resistance has not been reportedpreviously. Variation in the pattern of inheritance and the level ofresistance indicate that multiple resistance mechanisms may be present inhairy fleabane populations in California.

The effect of weed interference on corn yield and the critical period forweed control (CPWC) were determined in Germany and Benin. Treatments withweed control starting at different crop growth stages and continuously keptweed-free until harvest represented the “weed-infested interval.” Treatmentsthat were kept weed-free from sowing until different crop growth stagesrepresented the “weed-free interval.” Michaelis–Menten, Gompertz, logisticand log–logistic models were employed to model the weed interference onyield. Cross-validation revealed that the log–logistic model fitted theweed-infested interval data equally well as the logistic and slightly betterthan the Gompertz model fitted the weed-free interval. For Benin, economiccalculations considered yield revenue and cost increase due to mechanicalweeding operations. Weeding once at the ten-leaf stage of corn resultedalready profitable in three out of four cases. One additional weedingoperation may optimize and assure profit. Economic calculations for Germanydetermined a CPWC starting earlier than the four-leaf stage, challenging thedecade-long propagated CPWC for corn. Differences between Germany and Beninare probably due to the higher yields and high costs in Germany. This studyprovides a straightforward method to implement economic data in thedetermination of the CPWC for chemical and nonchemical weed controlstrategies.

Our objective was to evaluate the cost/benefit of a single herbicide application or targeted grazing of invasive annual grasses during restoration of partially invaded sagebrush steppe ecosystems used for livestock production. The cost/benefit model used is based on estimating the production of vegetation in response to implementing management and modeling cost/benefit economics associated with that prediction. The after-tax present value of added animal unit months (AUMs) obtained was lower than the present value of after-tax treatment costs after 20 yr for a single herbicide treatment, but higher than the present value of after-tax treatment costs for the grazing management scenario. Even at the highest weed utilization level, the value of added AUMs did not offset the cost of the treatment after 20 yr. However, the grazing treatment resulted in a value of added AUMs higher than the costs after 20 yr. Depending on the invasive weed utilization level, break-even points with targeted grazing occurred at anywhere from the first year to 7 yr. This assessment clearly shows that grazing management can be economically viable for managing annual grass-infested rangeland. In the future, models like the one used here can be improved by incorporating the rangeland management and restoration benefits on the wide variety of goods and services gained from rangeland.

At germination, seedlings may be encouraged by the surrounding vegetation. This facilitation was studied in dandelions in a manipulative experiment to determine whether a nurse plant, either maple trees or alfalfa, assisted in the germination of dandelion seeds and whether there was a difference in germination when additional moisture (irrigation) was provided on top of rainfall. Seeds were sown into 33-cm2 “arenas” and surrounded by plastic collars, which prevented the seed from being eaten by predators. Germination was recorded at 1- to 2-d intervals, and the percentage of the seeds that germinated and their time to 50% germination (T50) was calculated. The nurse plant was consistently associated with seed germination. Compared with bare ground, the germination percentage was lower under tree cover, whereas T50 was shorter under the cover of herbaceous plants (alfalfa). The values for the germination percentage and T50 were similar under tree and herb nurse plants when the soil was irrigated. Nurse plants facilitated germination via their effects on understory humidity. Facilitating the germination of dandelions through the presence of nurse plants contributes to their propagation in crops.

First- and second-year seedbank emergence of 23 summer annual weed speciescommon to U.S. corn production systems was studied. Field experiments wereconducted between 1996 and 1999 at the Iowa State University Johnson Farm inStory County, Iowa. In the fall of 1996 and again in 1997, 1,000 seeds formost species were planted in plastic crates. Seedling emergence was countedweekly for a 2-yr period following seed burial (starting in early spring).Soil temperature at 2 cm depth was estimated using soil temperature andmoisture model software (STM2). The Weibull function was fit tocumulative emergence (%) on cumulative thermal time (TT), hydrothermal time(HTT), and day of year (DOY). To identify optimum base temperature (Tbase) and base matric potential (ψbase) forcalculating TT or HTT, Tbase and ψbase values rangingfrom 2 to 17 C and −33 to −1,500 kPa, respectively, were evaluated for eachspecies. The search for the optimal model for each species was based on theAkaike's Information Criterion (AIC), whereas an extra penalty cost wasadded to HTT models. In general, fewer seedlings emerged during the firstyear of the first experimental run (approximately 18% across all species)than during the second experimental run (approximately 30%). However,second-year seedbank emergence was similar for both experimental runs(approximately 6%). Environmental effects may be the cause of differences intotal seedling emergence among years. Based on the AIC criterion, for 17species, the best fit of the model occurred using Tbase rangingfrom 2 to 15 C with four species also responding to ψbase = −750kPa. For six species, a simple model using DOY resulted in the best fit.Adding penalty costs to AIC calculation allowed us to compare TT and HTTwhen both models behaved similarly. Using a constant Tbase,species were plotted and classified as early-, middle-, and late-emergingspecies, resulting in a practical tool for forecasting time of emergence.The results of this research provide robust information on the prediction ofthe time of summer annual weed emergence, which can be used to schedule weedand crop management.

Cowcockle, an introduced summer annual weed of the Northern Great Plains, is being considered for domestication because of its high quality starch, cyclopeptides, and saponins. Loss of seed dormancy is one of the key desirable traits for domestication. To determine the potential for domestication of this species, an understanding of the seed dormancy and germination patterns is required. The objectives of this study were to evaluate seed dormancy in cowcockle ecotypes and determine how temperature and light affect seed dormancy. We evaluated 15 populations of cowcockle for primary dormancy by exposing them to five temperatures (5, 7.5, 10, 15, and 20 C) under two temperature regimes (constant and alternating) in both dark and light conditions. Freshly matured seeds of all the populations showed high levels of primary dormancy except ‘Mongolia’. Lower levels of dormancy at medium temperatures (10 and 15 C) and greater dormancy at low and high temperatures suggest conditional dormancy, a state at which seeds germinate over a narrower range of conditions compared to nondormant seeds. The effects of temperature regime, light, and their interaction was significant only at suboptimal (5 and 7.5 C) and supraoptimal (20 C) temperatures. Under these conditions, alternating temperatures were more effective in breaking the conditional dormancy, followed by light. The variation in optimum temperature, light, and their interactions among the cowcockle populations may be due to the plants evolving to adapt to their local environments. From a domestication perspective, the conditional dormancy in cowcockle can be observed as an evolutionary mechanism that prevents untimely germination following maturity and may not be a major obstacle for its domestication.

Indirect effects of insect control strategies on weed populations areimportant to consider when developing robust integrated pest managementstrategies. Weed seed predation rates were investigated in corn managedunder three contrasting treatments based on control practices for cornrootworm: (1) the transgenic crop Cry3Bb Bt corn, (2) the broad-spectruminsecticide tefluthrin, and (3) no insecticide control. This 2-yr fieldstudy conducted near Ithaca, NY, involved quantifying seed loss fromvelvetleaf, common lambsquarters, and giant foxtail in arenas with andwithout vertebrate exclosures. Velvetleaf and giant foxtail were unaffectedby the insecticide treatment; however, average seed predation of commonlambsquarters was lower in both the Bt corn (11.9%) and insecticide-treatedplots (11.8%) compared with control plots (17.5%) that did not receive anyinsecticide. Seed predation of common lambsquarters was not affected by thevertebrate exclosure. Lower seed predation in the transgenic Bt corn andinsecticide treatments was likely due to nontarget effects on carabids(Coleoptera: Carabidae). Although the reduction in seed predation was modestand limited to only one of the three weed species tested, our resultshighlight the need for greater risk assessment that includes the ecosystemservice of weed seed predation when considering insect pest managementoptions.

Citron melon is a monoecious, hairy annual vine commonly found in citrus orchards, and cotton and peanut fields. Information is not available on the effect of various environmental factors on the germination of citron melon. Laboratory and greenhouse experiments were carried out in 2011 and 2012 to determine the effect of light, temperature, salinity, pH, simulated water stress, and depth of sowing on the germination of citron melon. Citron melon germination was affected by various environmental factors. Highest germination was observed at day/night temperatures of 25/20 to 30/25 C regardless of light conditions. At temperatures below 25 C and beyond 35 C, germination declined and was higher under dark condition than light. Germination decreased as osmotic potential became more negative (−0.3 MPa to −1.5 MPa) and salt concentration increased (50 to 350 mM). No germination was observed at > −0.9 MPa and ≥ 300 mM salt concentrations. However, germination was observed over a broad range of pH (3 to 9) and up to 10-cm sowing depths. Seeds sown at the surface did not germinate but maximum germination (88 to 96%) occurred at 2- to 4-cm depth. The results of this study suggest that citron melon can grow in a wide range of climatic conditions and therefore can persist in Florida because of favorable weather and environmental conditions.

Increased soybean seed cost has generated recent interest in reducingseeding rates to improve economic returns. However, low seeding rates resultin reduced established plant stands with slower canopy development, andcanopy development is an important element of integrated weed management(IWM). Field studies were conducted in 2012 and 2013 in Wisconsin todetermine the trade-off between reduced seeding rates and PRE residualherbicide use for POST herbicide exposure. Soybean was planted in mid May in38-cm-wide rows at five seeding rates ranging from 148,200 to 469,300 seeds ha−1. A PRE application of metolachlor plus fomesafen was madeto half of the plots. One of two POST herbicide programs were sprayed at theV4 soybean growth stage to determine whether blending herbicide-resistant(HR) and non-HR soybean cultivars could be a practical alternative to reducesoybean seed expenses while maintaining the potential benefit of weedsuppression before the POST herbicide application. An increase in seedingrate did not reduce the density or size of weeds exposed to the POSTherbicide, and furthermore, end-of-season weed density and biomass were notinfluenced. In contrast, the use of a PRE herbicide reduced total weeddensity and biomass before POST application by 93 and 95%, respectively, inboth years. In 2012, the season was dry early and harvest stands of 161,100and 264,100 plants ha−1 produced 95% of the maximum yield for thePRE and no-PRE treatments, respectively. The difference was not repeated in2013 with adequate early season rainfall. In conclusion, PRE herbicide useproduced maximum yield with fewer plants per hectare by limiting earlyseason weed competition and reduced weeds exposed to POST herbicideapplication thus contributing to HR management (HRM). In contrast, higherplant densities generated within the seeding rate range of this study didlittle to improve IWM or HRM.

The synthetic auxin herbicides, aminocyclopyrachlor and clopyralid, control dicotyledonous weeds in turf. Clippings of turfgrass treated with synthetic auxin herbicides have injured off-target plants exposed to herbicide-laden clippings. Labels of aminocyclopyrachlor and clopyralid recommend that clippings of treated turfgrass remain on the turf following a mowing event. Alternative uses for synthetic auxin-treated turfgrass clippings are needed because large quantities of clippings on the turf surface interfere with the functionality and aesthetics of golf courses, athletic fields, and residential turf. A white clover bioassay was conducted to determine the persistence and bioavailability of aminocyclopyrachlor and clopyralid in turfgrass clippings. Aminocyclopyrachlor and clopyralid were each applied at 79 g ae ha−1 to mature tall fescue at 56, 28, 14, 7, 3.5, and 1.75 d before clipping collection (DBCC). Clippings were collected, and the treated clippings were recycled onto adjacent white clover plots to determine herbicidal persistence and potential for additional weed control. Clippings of tall fescue treated with aminocyclopyrachlor produced a nonlinear regression pattern of response on white clover. Calculated values for 50% response (GR50) for visual control, for normalized difference vegetative index (NDVI), and for reduction in harvested biomass were 20.5, 17.3, and 18.7 DBCC, respectively, 8 wk after clippings were applied. Clippings of tall fescue treated with clopyralid did not demonstrate a significant pattern for white clover control, presumably because clopyralid was applied at a less-than-label rate. The persistence and bioavailability of synthetic auxin herbicides in clippings harvested from previously treated turfgrass creates the opportunity to recycle clippings for additional weed control.

During 2004 to 2008, weed surveys were conducted in 373 wheat fields of two different cropped areas (southwest [SW] and southeast [SE]) of the southern region of Buenos Aires Province of Argentina where different weed communities were expected because of changes in cropping practices over time, including tillage, crop sequence, fertilizers, and herbicides applied. Weed communities differed between regions, with greater numbers of native species for the SW. Weed community diversity was also greater for the SW region, probably due to the more diverse land use that resulted in greater landscape heterogeneity. Rush skeletonweed, sand rocket, yellow starthistle and turnipseed occurred at higher constancy (proportion of fields in which a given species is present) in the SW region, whereas common chickweed, false bishop's weed, corn speedwell, and common lambsquarters were present more frequently in the SE region. Compared with the 1982 survey, constancy of weeds increased, but those species with high constancy in 1982 were also with high constancy in the recent surveys. Diversity (species richness) was greater in conventional than in a no-tillage system. The constancy of Italian ryegrass, sand rocket, and yellow starthistle was lower under no-till than conventional tillage. Surveys allow identification of changes in weed community related to different agricultural systems. Rotation of crops and livestock avoid the homogenization of the environment at the landscape level. Management strategies will be necessary to prevent the increase of weeds populations' size, preserving plant diversity and the properties of the agroecosystem.

Several weedy red rice populations have evolved resistance to imidazolinoneherbicides worldwide. The understanding of the factors related to theherbicide resistance in weedy red rice is important to prevent itsoccurrence in new areas where imidazolinone-resistant rice cultivars arebeing used, and to manage the new rice cultivars resistant to herbicideswith modes of action other than the acetolactate synthase (ALS)-inhibitorsthat are being developed. The objectives of this study were to analyze therelationship of weedy red rice populations from southern Brazil with ricecultivars and wild Oryza species and to evaluate theoccurrence of introgression from rice cultivars and seed migration as theorigin of resistance to imidazolinone herbicides in weedy rice. The studywas based on 27 weedy red rice populations, seven rice cultivars, and fourwild Oryza species that were genotyped with 24 simplesequence repeats and three ALS-specific single-nucleotidepolymorphism markers. A large proportion of the genetic variation of theweedy red rice populations was found within (74%) rather than amongpopulations (26%). The weedy red rice populations were more closely relatedto the newer rice cultivars that are imidazolinone-resistant than to theolder cultivars. The South American native Oryza glumaepatula and the other wild Oryza species—Oryza rufipogon, Oryza longistaminata, and Oryza glaberrima—clustered separately from weedy redrice populations, indicating a low likelihood of introgression among weedyred rice and these wild species. Seed migration was an important factor inthe genetic structure of the evaluated weedy red rice populations, althoughgene flow by pollen from resistant cultivars was the principal reason forthe spread of herbicide resistance.

Predictions of weed emergence can be used by practitioners to schedule POST weed management operations. Common sunflower seed from Kansas was used at six Midwestern U.S. sites to examine the variability that 16 climates had on common sunflower emergence. Nonlinear mixed effects models, using a flexible sigmoidal Weibull function that included thermal time, hydrothermal time, and a modified hydrothermal time (with accumulation starting from January 1 of each year), were developed to describe the emergence data. An iterative method was used to select an optimal base temperature (Tb) and base and ceiling soil matric potentials (ψb and ψc) that resulted in a best-fit regional model. The most parsimonious model, based on Akaike's information criterion (AIC), resulted when Tb = 4.4 C, and ψb = −20000 kPa. Deviations among model fits for individual site years indicated a negative relationship (r = −0.75; P < 0.001) between the duration of seedling emergence and growing degree days (Tb = 10 C) from October (fall planting) to March. Thus, seeds exposed to warmer conditions from fall burial to spring emergence had longer emergence periods.

A four site-year study was conducted in North Carolina to evaluate the effects of soybean planting timing and row spacing on soil moisture, weed density, soybean lodging, and yield in a cover crop-based no-till organic soybean production system. Soybean planting timing included roll-kill/planting and roll-kill/delayed planting where soybean planting occurred either on the same day or approximately 2 wk later, respectively. Soybean row spacing included 19, 38, and 76 cm, and all treatments included a weedy check and weed-free treatment. Rye biomass production averaged above 10,000 kg ha−1 dry matter, which resulted in good weed control across all sites. Despite having good weed control throughout all treatments, weed coverage was highest in the 76-cm row-space treatment when compared to both the 19-cm and 38-cm row spacing in two of the four site-years. Soybean lodging is a potential consequence of no-till planting of soybeans in high residue mulches, and of the three row spacings, the 19-cm spacing exhibited the greatest incidence of lodging. Row spacing also influenced soybean yield; the 19- and 38-cm row spacing out yielded the 76-cm spacing by 10%. Soil volumetric water content (VWC) was higher in the cereal rye mulch treatments compared to the no rye checks. Furthermore, delaying soybean planting lowered soil water evaporation. However, the increased soil VWC in the rolled-rye treatment did not translate into increased soybean yield. The rolled-rye treatment exhibited significant (P < 0.01) increases in soil VWC when compared to the no-rye treatment at three of the four site-years. These results highlight planting date flexibility and potential risk to lodging that producers face when no-till planting organic soybeans.

Weeds persist and cause economic losses in agricultural systems because theyexploit underused portions of that system. Reducing the effect of weeds onagroecosystems begins with minimizing the number of propagules (e.g., seedsand tubers) that are produced and returned to the soil. Purple nutsedge is aproblematic weed around the globe, persisting between growing seasons astubers in the soil. Halosulfuron is an effective herbicide for controllingpurple nutsedge foliage and is used in corn and several vegetable crops.Studies were conducted to evaluate the effect of various rates ofhalosulfuron on purple nutsedge tuber production. Single, presprouted purplenutsedge tubers were transplanted into outdoor microplots and treated after6 wk of growth with six rates of halosulfuron (7 to 208 g aiha−1) POST with a nontreated control (NTC). All shoots that hademerged at the time of application were marked with plastic rings; thisallowed for classification of tubers at exhumation of (1) tubers attached toshoots that had emerged by the time of application, (2) tubers attached toshoots that emerged after application, and (3) tubers without an aerialshoot during the study. Seven weeks after application, the tubers in themicroplots were exhumed and tubers were classified, quantified, and theirability to sprout was evaluated. In the NTC, there were 530 total tubers,with a log-logistic regression model describing the tuber population withincreasing halosulfuron rate. The rate of halosulfuron that reduced totaltuber population 50% (I50) was 8 g ha−1. In the NTC, 200 tubers were attachedto shoots that emerged following halosulfuron application, and this class oftubers had an I50 of 19 g ha−1. Viability of tubers with shoots thatemerged following halosulfuron application was 28% at the 52 g ha−1 halosulfuron, suggesting the action of the herbicide mayhave rendered the tuber nonviable after new shoots were produced. The finalclassification of tubers was those that did not have an aerial shoot duringthe study. These were tubers in which apical dominance suppressed shootdevelopment or were likely the most-recent tubers to develop. Of the threeclasses, the tubers without shoots were the most numerous in the NTC, with294 tubers and an I50 of 1 g ha−1. Halosulfuron is an effective herbicidethat not only controls purple nutsedge foliage but also reduces the numberof new tubers produced and overall tuber viability. This could be animportant component to reduce the long-term population density of theweed.

There is an increasing interest in the use of cover crops in agriculture, inSweden mainly for the use as catch crops to reduce nitrogen leakage. Some ofthese crops are known for their allelopathic abilities, which may play arole in the control of weeds and contribute to reduced herbicide use. Thisstudy aimed to explore the possible suppressive effect of the cover cropspecies white mustard, fodder radish, rye, and annual ryegrass on the earlygrowth of the weed species silky windgrass, shepherd's-purse, and scentlessfalse mayweed. In a greenhouse experiment using fresh cover crop residues,white mustard was the only crop that showed an effect. It reduced bothseedling establishment, by 51 to 73%, and biomass, by 59 to 86%, ofshepherd's-purse and scentless false mayweed. In contrast, in a growthchamber experiment using frozen material, mean germination time of silkywindgrass was extended by 20 to 66% by all cover crops. Also, three out offour cover crops reduced root growth in scentless false mayweed by 40 to46%, and two out of four cover crops reduced root growth in shepherd's-purseby 13 to 61%. However, considering seedling survival, white mustard was themost prominent cover crop, reducing survival by 21 to 57% inshepherd's-purse and scentless false mayweed. In this paper we provideevidence that different weed species show different response to differentcover crops under climatic conditions prevailing in Scandinavia. Suchresults emphasize the importance of understanding weed–cover cropinteractions as necessary for developing cropping systems that can utilizecover crops to suppress local weed flora.

Greenhouse and laboratory experiments were conducted on common waterhemp and soil collected from 131 soybean fields in Missouri that contained late-season common waterhemp escapes. The objectives of these experiments were to determine the effects of soil sterilization on glyphosate-resistant (GR) and -susceptible (GS) common waterhemp survival, to determine the effects of soil sterilization and glyphosate treatment on infection of GR and GS common waterhemp biotypes by Fusarium spp., and to determine the soil microbial abundance and diversity in soils collected from soybean fields with differences in common waterhemp biotypes and herbicide and crop rotation histories. Common waterhemp biotypes were treated with 1.7 kg glyphosate ae ha−1 or left untreated once plants reached approximately 15 cm in height. Common waterhemp survival was visually assessed at 21 d after glyphosate treatment (21 DAT). To determine Fusarium infection frequency, a single intact common waterhemp root was harvested from each treatment at 0, 3, 7, 14, and 21 DAT and surface sterilized, and 10 to 15–mm common waterhemp root sections were plated on Komada culture medium. After 14 d incubation, fungal colonies were selected from colonized roots and maintained on potato dextrose agar medium amended with antibiotics before identification. Speciation of Fusarium isolates was conducted through microscopic examination of fungal characters and confirmed by sequencing and analysis of ribosomal DNA. Soil samples from 131 different collections were subjected to phospholipid fatty acid (PLFA) analysis and were conducted utilizing gas chromatography to determine the soil microbial community abundance and structure. Common waterhemp plants grown in sterile soils had the highest common waterhemp survival, regardless of biotype. After treatment with glyphosate, survival of GS common waterhemp grown in nonsterile soil was only 29% 21 DAT, whereas survival of GS common waterhemp grown in nonsterile soil was only 10%. Similarly, GR common waterhemp survival was reduced from 83 to 61% following treatment with glyphosate when grown in nonsterile compared to sterile soil. Fusarium spp. were recovered from only 12% of the assayed roots (223 treatments with Fusarium out of a total 1,920 treatments). The greatest occurrence of Fusarium root infection in both GR and GS common waterhemp occurred in nonsterile soils following a glyphosate treatment. Few differences in total PLFA were observed in field soil collected from locations with either GR or GS common waterhemp, and regardless of herbicide or crop history. This research supports previous findings that plant species are more sensitive to glyphosate in nonsterile than sterile soils and indicates glyphosate may predispose plants to soil-borne phytopathogens. This research also suggests that continuous use of glyphosate does not significantly affect soil microbial abundance or diversity.

Weed control in rice is challenging, particularly in light of increasedresistance to herbicides in weed populations and diminishing availability ofirrigation water. Certain indica rice cultivars can produce high yields andsuppress weeds in conventional flood-irrigated, drill-seeded systems in thesouthern United States under reduced herbicide inputs, but their response toreduced irrigation inputs in these systems in not known. Rice productivityand weed control by weed-suppressive cultivars and conventionalnonsuppressive cultivars were evaluated in a nonflooded furrow-irrigated(FU) system and a conventionally flooded (FL) system under three levels ofweed management (herbicide inputs) in a 3-yr field study. Rice yields acrossall weed management levels yielded ∼ 76% less in the FU system than in theFL system. The allelopathic indica cultivar, ‘PI 312777’, and commercialhybrid rice ‘CLXL729’ generally produced the highest grain yields andgreatest suppression of barnyardgrass in both irrigation systems. ‘Bengal’and ‘Wells’ were the top-yielding conventional cultivars whereas ‘Lemont’and ‘CL171AR’ yielded the least. Weed suppression by PI 312777 and CLXL729under “medium” weed management was equivalent to that of Lemont and CL171ARat the “high” management level, suggesting that the weed-suppressivecultivars may be able to compensate for suboptimal herbicide inputs orincomplete weed control.

The efficacy, absorption, translocation, and metabolism of thiencarbazone-methyl (TCM) in hedge bindweed, field bindweed, ivyleaf morningglory, tall morningglory, and wild buckwheat were evaluated in greenhouse experiments and field trials. Forty-eight hours after foliar microapplication, 14C-TCM absorption was highest in ivyleaf morningglory (60%), followed by field bindweed (50%), wild buckwheat (35%), tall morningglory (17%), and hedge bindweed (9%). In all species, 14C-TCM was translocated systemically. By 24 h after application, 14C-TCM was detected in all parts of the plants. The translocation pattern is species-specific, with more translocation in tall morningglory and wild buckwheat. In all vining weeds 14C-TCM was almost not metabolized whereas corn metabolized almost all 14C-TCM 48 h after application. The efficacy of TCM was analyzed using dose–response curves. Wild buckwheat had the lowest value for the dose at which 50% of the activity occurs (2.1 g ai ha−1 TCM), followed by hedge bindweed and ivyleaf morningglory. Field studies confirmed the high control of wild buckwheat with TCM. Even at the lowest tested concentration of TCM, wild buckwheat was controlled by over 90%. In contrast, efficacy of TCM in field trials against perennial vining weeds was very low, 25% for field bindweed and 65% against hedge bindweed. Control efficacy could be well explained by the translocation pattern of TCM in vining weeds.

Difficulties in chemically controlling large crabgrass in corn in SouthAfrica have recently been attributed to the occurrence of naked crabgrass.In contrast to large crabgrass, naked crabgrass is not easily controlledwith acetanilide herbicides. Critical periods of weed control (CPWC) fornaked crabgrass in corn was determined in field studies during the 2009/2010and 2010/2011 growing seasons at two separate localities for an early andlate planting date of corn. Weed-free and weed–crop interference treatmentsof increasing duration were maintained at various crop growth stages in thepresence of naked crabgrass. Biomass of naked crabgrass was determined asdry weight per square meter quadrant, which yielded 428 g m−2 atPotchefstroom and 594 g m−2 at Wesselsbron. An exponentialregression model was used to determine the CPWC expressed as growing degreedays after crop emergence, on the basis of an estimated 10% relative yieldloss in corn. The onset and ending, as well as the duration of the CPWC,differed between seasons and localities. At 10% relative yield loss, theonset of the CPWC ranged between the two-leaf (V2) and six-leaf (V6) stages,and the ending between the 12-leaf (V12) stage and 2 wk after tasseling (T +2). The duration of the CPWC ranged between 22 and 80 d for the respectiveplanting dates, years, and localities. Yield losses ranged from 28 to 82% inthe season-long weedy plots. The shifting of planting dates alone did notreduce yield losses since the effect of late infestations of naked crabgrassis significant. Naked crabgrass control from crop emergence is essential,followed by POST herbicide application during the critical period of weedcontrol to lower the risk of corn yield losses.