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76 results on '"Soybean -- Environmental aspects"'

2. COFCO: Delivery of first Brazil-China deforestation- and conversion-free soybean trade agreement

Subjects
Deforestation -- China -- Brazil, Soybean industry -- Environmental aspects -- Supply and demand, Soybean -- Environmental aspects, Logistics -- Environmental aspects, Business, Business, international
Abstract

COFCO International successfully delivered the first shipment of deforestation- and conversion-free soybeans to China, marking a significant milestone in sustainable agriculture. The company aims to achieve a deforestation-free soy supply [...]

Published
2024

3. COFCO successfully delivered China's first order of Brazilian soybeans with 'zero deforestation and zero vegetation destruction'

Subjects
COFCO Corp. -- International economic relations, Deforestation -- China -- Brazil, Food industry -- International economic relations, Soybean -- Environmental aspects, Farm produce -- Environmental aspects, Logistics -- Environmental aspects, Food and beverage production/distribution software, Business, Business, international
Abstract

COFCO Group successfully delivered the first batch of Brazilian soybeans with zero deforestation. The company aims to establish a zero-deforestation soybean supply chain in Latin America by 2025, emphasizing sustainability [...]

Published
2024

4. COFCO International's first 'zero deforestation' Argentine soybean product sets sail

Subjects
Deforestation -- Argentina -- Latin America, Soybean industry -- International economic relations, Ships -- Planning -- Environmental aspects, Soybean -- Environmental aspects, Farm produce -- Planning -- Environmental aspects, Logistics -- Environmental aspects, Company business planning, Business, Business, international
Abstract

The first cargo ship carrying 18,000 tonnes of soybeans from Argentina, certified through the Argentine Visec traceability system, sailed to the EU. The EU Zero Deforestation Act, effective from December [...]

Published
2024

5. COFCO International and China Shengmu reached a cooperation agreement on purchasing Brazilian 'zero deforestation' soybeans

Subjects
Deforestation -- China -- Brazil, Feed industry -- International economic relations -- Purchasing, Rain forests -- China -- Brazil, Soybean -- Environmental aspects, Business, Business, international
Abstract

COFCO International and China Shengmu Organic Dairy have signed a cooperation agreement to purchase 'zero deforestation and zero vegetation damage' Brazilian soybeans. COFCO International will buy at least 12,000 tons [...]

Published
2024

6. COFCO International and Mengniu Modern Dairy reach a cooperation agreement on purchasing 'zero-deforestation' Brazilian soybeans

Subjects
Deforestation -- China -- Brazil, Sustainable development -- Environmental aspects, Dairy industry -- International economic relations, Soybean -- Environmental aspects, Food supply -- Environmental aspects, Farm produce -- Purchasing, Logistics -- Environmental aspects, Business, Business, international
Abstract

On November 6, during the Sixth China International Import Expo, COFCO International and Mengniu Modern Dairy signed a cooperation memorandum on the purchase of 'zero-deforestation' Brazilian soybeans. China has reached [...]

Published
2023

7. Influence of locations and planting dates on protein composition of soybean lines with modified beta-conglycinin and glycinin concentration

Author

Jenkinson, Jonathan E. and Fehr, Walter R.

Subjects
Soybean -- Research, Soybean -- Environmental aspects, Soybean -- Properties, Plant physiological ecology -- Research, Plant breeding -- Research, Plant breeding -- Environmental aspects, Agricultural industry, Business
Abstract

Soybean [Glycine max (L.) Merr.] cultivars with increased [beta]-conglycinin (BC) and reduced glycinin (Gly) may have both food production and human health benefits. The stability of BC and Gly concentrations over different environmental conditions will be an important factor in the production of these cultivars. The objective of this study was to evaluate the effect of locations and planting dates on the protein composition of soybean genotypes with varied combinations of Gy and gy alleles for reduced Gly and increased BC concentration. Six soybean lines with different gy allele combinations and one common cultivar with only wild-type Gy alleles were grown at four locations with three planting dates at each location in 2008. There were no significant differences among planting dates for the mean concentration of BC, Gly, or their subunits. The means of locations were significantly different for all of the protein components, except for the A124 subunit of Gly. The genotype with four gy alleles produced 0 g [kg.sup.-1] of Gly across locations and planting dates, but only three of the mutant gy alleles were required to maximize BC concentration. Grain produced at different locations likely would differ in BC and Gly concentration, but planting dates at a location would not be expected to significantly affect the protein components. doi: 10.2135/cropsci2009.09.0478

Published
2010

8. Correlation between soil pH, Heterodera glycines population densities, and soybean yield

Author

Pedersen, P., Tylka, G.L., Mallarino, A., Macguidwin, A.E., Koval, N.C., and Grau, C.R.

Subjects
Soil acidity -- Measurement, Crop yields -- Measurement, Soybean -- Growth, Soybean -- Environmental aspects, Plant physiological ecology -- Research, Population density -- Measurement, Company growth, Agricultural industry, Business
Abstract

Soybean cyst nematode (Heterodera glycines Ichinohe) is the most damaging pathogen of soybean [Glycine max (L.) Merr.] in the United States. Observations in fields suggest that high H. glycines population densities are associated with high soil pH, but H. glycines and soil pH have not been linked to soybean yield. The objective of our study was to assess the relationship between soil pH and H. glycines population densities and subsequent effect on yield. Experiments were conducted in Wisconsin from 1997 to 2000 and in Iowa from 1996 to 1998. Results were consistent among the experiments and showed a positive correlation between soil pH and H. glycines population densities and a negative correlation between yield and both soil pH and H. glycines population densities in both states. In the Wisconsin experiment, yield of both H. glycines-resistant and H, glycines-susceptible cultivars decreased as pH increased, but the decrease was less with H. glycines-resistant cultivars. Overall, results indicate that H. glycines population densities and the impact of nematode population densities on soybean yield are related to soil pH; however, the mechanism of these interactions is unknown. doi: 10.2135/cropsci2009.08.0432

Published
2010

9. New and old soybean cultivar responses to plant density and intercepted light

Author

De Bruin, Jason L. and Pedersen, Palle

Subjects
Soybean -- Research, Soybean -- Environmental aspects, Soybean -- Growth, Crop yields -- Research, Company growth, Agricultural industry, Business
Abstract

Genetic gain for new soybean [Glycine max (L.) Merr.] cultivars is substantial, and research suggests this is partially explained by greater tolerance to increased plant densities. We conducted an experiment to determine if greater tolerance to increased plant density and more efficient use of cumulative intercepted photosynthetically active radiation (ClPAR) partially explained the yield difference of two old soybean cultivars and two new cultivars. Soybean cultivars were grown in 38-cm spaced rows at final plant densities of 4.9, 14.8, 24.7, 34.6, and 44.5 plants [m.sup.-2] for 2 yr in Ames, IA. New cultivars averaged 914 kg [ha.sup.-1] and 4.9 g [plant.sup.-1] greater yield compared with old cultivars averaged across years and plant densities. Yield plateaus occurred at plant densities of 23.0 plants [m.sup.-2] for new cultivars and 19.9 plants [m.sup.-2] for old cultivars. Each cultivar group showed a similar yield decline per plant to increased plant density. New and old cultivars showed a similar response to increasing values of ClPAR, attaining a 95% relative yield plateau at 466 MJ [m.sup.-2]. Soybean yield response to increased plant density and ClPAR has not changed over time, and genetic gain from new cultivars is associated with more efficient use of light. doi: 10.2135/cropsci2009.02.0063

Published
2009

10. Environmental effects on oleic acid in soybean seed oil of plant introductions with elevated oleic concentration

Author

Lee, Jeong-Dong, Woolard, Melissa, Sleper, David A., Smith, James R., Pantalone, Vincent R., Nyinyi, Catherine N., Cardinal, Andrea, and Shannon, J. Grover

Subjects
Soy oil -- Genetic aspects, Soy oil -- Environmental aspects, Oleic acid -- Chemical properties, Oleic acid -- Environmental aspects, Soybean -- Genetic aspects, Soybean -- Environmental aspects, Agricultural industry, Business
Abstract

Soybean [Glycine max (L.) Merr.] oil with oleic acid (18:1) content >500 g [kg.sup.-1] is desirable for a broader role in food and industrial uses, Seed oil in commercially grown soybean genotypes averages about 230 g [kg.sup.-1] oleic acid. Some maturity group (MG) II to V plant introductions (PIs) have elevated oleic concentrations of 300 to 500 g [kg.sup.-1]. Temperature of the growing environment during the reproductive growth stage affects oleic concentration in soybean oil. The objective of this study was to evaluate stability of oleic acid content among 15 PIs with elevated 18:1 and three checks grown in 16 environments. Oleic acid concentration of the high 18:1 checks N98-4445A and M23 ranged from 383 to 694 g [kg.sup.-1] and 428 to 572 g [kg.sup.-1] with averages of 575 g [kg.sup.-1] and 508 g [kg.sup.-1], respectively. The PIs with the highest 18:1 were MG II to III, with most lines averaging >400 g [kg.sup.-1] oleic acid concentration over 16 environments. Generally, PIs in MG II to III were less stable across environments than those in MG V. However, MG III PI 379559D ranged from 381 to 513 g [kg.sup.-1] with an average 439 g [kg.sup.-1] oleic acid concentration and was the most stable in oleic acid content of the 15 PIs studied. PI379559D was more stable than N98-4445A or M23. PI417360 and PI506852 averaged highest in 18:1 (>330 g [kg.sup.-1]) among MG V PIs studied. Combining genes from these PIs and other sources with elevated 18:1 may be useful in developing higher oleic acid soybean genotypes.

Published
2009

11. Correlation between temperature and oleic acid seed content in three segregating soybean populations

Author

Bachlava, Eleni and Cardinal, Andrea J.

Subjects
Oleic acid -- Measurement, Temperature -- Environmental aspects, Soybean -- Composition, Soybean -- Environmental aspects, Agricultural industry, Business
Abstract

The development of high-oleate soybean [Glycine max (L.) Merr.] germplasm, currently in demand due to its nutritional value and oxidative stability, may be hampered by the instability of fatty acid composition across environments, which is largely attributed to temperature changes and its effects on fatty acid biosynthesis during the period of oil deposition. In the present study, we evaluated three soybean populations that segregated for oleate content and maturity at multiple environments in North Carolina. Oleate content was positively correlated with daily temperatures, averaged over the seed-filling stage, for the experimental lines of the late-maturing population but was negatively correlated for the lines of the early-maturing populations. Oil content was positively correlated with the average daily temperature during seed filling in all three populations, regardless of their early- or late-maturity profile. Negative correlations between oleate content and temperature during the period of oil deposition have not been previously reported. Moreover, in contrast to previous reports, maximum, minimum, and average daily temperatures were highly correlated during seed filling in all environments of this study. We conclude that cautious interpretation of these findings is necessary due to the correlation between temperature and photoperiod during the period of oil deposition.

Published
2009

12. Genotype x environment interaction and stability for isoflavone content in soybean

Author

Murphy, Sheila E., Lee, Elizabeth A., Woodrow, Lorna, Seguin, Philippe, Kumar, Jagdish, Rajean, Istvan, and Ablett, Gary R.

Subjects
Isoflavones -- Identification and classification, Isoflavones -- Environmental aspects, Plant genetics -- Research, Soybean -- Environmental aspects, Soybean -- Composition, Agricultural industry, Business
Abstract

Isoflavones are naturally occurring compounds found in soybean [Glycine max (L.) Merr.]. Soybean isoflavone, as a quantitative trait, is subject to significant genotype x environment interaction, which makes breeding for this trait difficult. Thirty [F.sub.4:7] soybean lines, derived from crosses of 'RCAT Angora' x CK-01 and 'Heinong 35' x RCAT Angora were classified within each population as high, intermediate, or low isoflavone. The lines, parents, and two maturity checks were grown in four locations in 2005 and six locations in 2006 across Ontario and Quebec, Canada. Isoflavone content of the mature seed was determined by near-infrared reflectance. The effects of genotype, environment, and the genotype x environment (G x E) interaction were significant. Consistently performing genotypes from the two populations were identified by several stability parameters. Genotype-genotype x environment (GGE) biplot demonstrated an ability to provide information on both the genotypes and the environments in which they were evaluated. The identification of genotypes with consistent placement in either the high- and low-isoflavone classes suggested that breeding for relative isoflavone content in soybean is possible, although breeding for absolute stability remains a challenge, given the large environmental influence on soybean isoflavone levels.

Published
2009

13. Differential wilting among soybean genotypes in response to water deficit

Author

King, C. Andy, Purcell, Larry C., and Brye, Kristofor R.

Subjects
Soybean -- Environmental aspects, Soybean -- Physiological aspects, Soybean -- Genetic aspects, Genotype -- Research, Droughts -- United States, Droughts -- Influence, Plant-soil relationships -- Research, Plant-water relationships -- Research, Plants -- Hardiness, Plants -- Genetic aspects, Agricultural industry, Business
Abstract

Genotypic differences for canopy wilting have been reported for soybean [Glycine max (L.) Merr.], but no wilting data have been published, and mechanisms for differences remain unresolved. In field studies in 2002 and 2003, differences for wilting among 19 genotypes were consistent across years. Plant introductions (PI 416937 and PI 471938) were among the slowest wilting genotypes, and breeding lines (93705-34 and 93705-95) were among the fastest wilting. Row spacing (18 vs. 80 cm wide) did not affect wilting, indicating that lateral rooting did not contribute to genotypic differences. In a separate field study, volumetric soil water content at 15- and 50-cm depths was generally greater for slow-wilting PI 416937 than for fast-wilting 93705-95. Wilting for both genotypes responded similarly to soil water content ([r.sup.2] = 0.63-0.74). In a growth chamber study, transpiration declined similarly for fast- and slow-wilting genotypes in response to soil water deficit. Wilting response to soil water was the same for slow-wilting P1416937 and fast-wilting genotypes 93705-34 and A5959. Slow-wilting 93705-36 began wilting at a lower soil water content than did PI416937, 93705-34, and A5959, indicating that more than one mechanism may be responsible for slow wilting.

Published
2009

14. Radiation interception and yield response to increased leaflet number in early-maturing soybean genotypes

Author

Seversike, Thomas M., Purcell, Larry C., Gbur, Edward, Chen, Pengyin, and Scott, Roy

Subjects
Soybean -- Genetic aspects, Soybean -- Physiological aspects, Soybean -- Environmental aspects, Solar radiation -- Influence, Crop yields -- Research, Leaves -- Environmental aspects, Leaves -- Properties, Leaves -- Influence, Cultivars -- Environmental aspects, Cultivars -- Physiological aspects, Plants -- Development, Plants -- Genetic aspects, Plants -- Environmental aspects, Agricultural industry, Business
Abstract

Early-maturing soybean [Glycine max (L.) Merr.] cultivars require less irrigation than full-season cultivars and may mature before drought periods most often occur in the midsouthern United States. These cultivars require high plant-population densities for radiation interception and acceptable yields, which increase costs. We hypothesized that seven-leaflet genotypes would have greater leaf area per plant, resulting in more radiation interception and higher yield than near-isogenic three-leaflet genotypes at similar populations. Near-isogenic lines from maturity groups 00 to 1.8 were seeded at rates from 4 to 80 [m.sup.-2]. The fraction of photosynthetically active radiation (PAR) intercepted by plots was measured using digital imagery and used to estimate cumulative intercepted PAR (CIPAR). Although seven-leaflet isolines had greater leaf area per leaf than three-leaflet isolines, leaf area per plant was similar between three- and seven-leaflet isolines because the three-leaflet isolines had a slightly greater number of mainstem leaves than seven-leaflet isolines. Generally, seven-leaflet isolines had 10 to 21% greater CIPAR at populations [less than or equal to] 40 [m.sup.-2] compared to three-leaflet isolines. At populations [less than or equal to] 20 [m.sup.-2], seven-leaflet isolines generally had higher yields than three-leaflet isolines, but yields at these low populations were inherently low and agronomically unacceptable.

Published
2009

15. Imbibitional chilling sensitivity and soluble carbohydrate composition of low raffinose, low stachyose soybean seed

Author

Obendorf, Ralph L., Zimmerman, Angela D., Ortiz, Paula A., Taylor, Alan G., and Schnebly, Steven R.

Subjects
Soybean -- Physiological aspects, Soybean -- Nutritional aspects, Soybean -- Environmental aspects, Seeds -- Properties, Carbohydrates -- Properties, Plants -- Hardiness, Plants -- Research, Agricultural industry, Business
Abstract

Soybean [Glycine max (L.) Merrill] seed with low raffinose, stachyose, and phytin is desired for feeding nonruminant animals to improve feed efficiency, increase mineral uptake, and reduce flatulence, but may have reduced agronomic quality. Composition of soluble carbohydrates in seed parts and sensitivity of mature seed to imbibitional chilling were determined for low raffinose and stachyose (LRS) seed; low raffinose, stachyose, and phytin (LRSP1, LRSP2) seed; and normal raffinose, stachyose, and phytin (CHECK) seed. Cotyledons and axes of seed from the three modified lines had low raffinose, stachyose, and verbascose compared to the CHECK. Cotyledons from LRS seed had significantly higher concentrations of galactinol and the di- and tri-[alpha]-galactoside derivatives of myo-inositol, D-pinitol, and D-chiro-inositol than cotyledons from LRSP1 and LRSP2 seed. Seed coats of all four lines were similar in soluble carbohydrate composition indicating the modifications were expressed in embryo tissues. Mature seed of LRS and CHECK was tolerant to imbibitional chilling, but LRSP1 and LRSP2 seed were sensitive to imbibitional chilling. The higher accumulation of cyclitol [alpha]-galactosides in embryos (cotyledons) of LRS seed (90% cotyledons, 2% axis, 8% seed coat) may have contributed to imbibitional chilling tolerance.

Published
2008

16. Identification of soybean accessions with high germinability in high-temperature environments

Author

Smith, James R., Mengistu, Alemu, Nelson, Randall L., and Paris, Robert L.

Subjects
Soybean -- Genetic aspects, Soybean -- Environmental aspects, Soybean -- Physiological aspects, Seeds -- Properties, Seeds -- Environmental aspects, Seeds -- Genetic aspects, Germination -- Environmental aspects, Germplasm resources, Plant -- Research, Plant genetics -- Research, Agricultural industry, Business
Abstract

Soybean [Glycine max (L.) Merr.] seed produced in high-temperature, high-humidity production environments is prone to have substandard germination. Hardseededness, wrinkled seed coats, and infection by Phomopsis Iongicolla Hobbs are all known to affect soybean seed germinability. Ancestors of modern U.S. soybean cultivars may lack the necessary variability to impart high germinability to new cultivars without the introgression of new genetic diversity. The purpose of this research was to identify soybean germplasm possessing positive traits affecting high seed germinability for seed produced under high-temperature environments, such as in the early soybean production system (ESPS) of the midsouthern United States. Seed was produced in the ESPS for 486 U.S. plant introductions (PI), 25 ancestral lines of U.S. cultivars, and four U.S. cultivars at Stoneville, MS, in 2002 and 2003. Standard and accelerated-aging germination percentages, hardseededness, seed coat wrinkling, and incidence of P. longicolla were estimated for each line. Based on the 2002 and 2003 field data, 42 PIs were selected for further testing, along with three cultivars, in two greenhouse temperature regimes (36[degrees] and 42[degrees]C) at Stoneville, MS, in 2005. Standard field germinations for the 25 ancestral lines ranged from 26 to 82%. Sixty-three accessions were identified as having a mean standard field germination of [greater than or equal to] 90%,

Published
2008

17. Forage and grain soybean effects on soil water content and use efficiency

Author

Rao, S.C. and Northup, B.K.

Subjects
Soybean -- Physiological aspects, Soybean -- Environmental aspects, Plant-soil relationships -- Research, Soil moisture -- Research, Water use -- United States, Water use -- Research, Agricultural industry, Business
Abstract

Growing legumes in the southern Great Plains (SGP) during fallow periods between wheat (Triticum aestivum L.) crops can protect soil, add N to soil, and supply high-quality summer forage. This study determined the water used, water use efficiency (WUE), and soil water depletion of forage (n = 3) and grain (n = 1) soybean [Glycine max (L.) Merr.] cultivars on silt loam soils following winter wheat harvest during the 2003 to 2005 summer growing seasons. Interactions (P < 0.01) in soil water content occurred between sampling date, cultivars, and years. More soil water was recorded under soybean in 2003 than 2004 or 2005, but was lower than in fallow plots. Year effects (P < 0.05) were recorded for standing crop, water used, and WUE. While cultivar effects were not significant P > 0.10). All cultivars used 2.0 to 2.5 times more water in 2004 and 2005 than 2003 (driest year). Forage production in 2003 (3034 kg [ha.sup.-1]) was 55% lower than in 2004 and 2005. Higher WUE (kg [ha.sup.-1] [mm.sup.-1]) was recorded in 2004 (16.0) than 2003 (13.2) or 2005 (10.9). Incorporating soybean into fallow periods following wheat generally limits the amount of soil water available for fall production of wheat forage in the SGP.

Published
2008

18. Yield and agronomic responses of soybean to cotyledon and unifoliolate node removal

Author

Coulter, Jeffrey A. and Nafziger, Emerson D.

Subjects
Soybean -- Physiological aspects, Soybean -- Properties, Soybean -- Environmental aspects, Crop yields -- Research, Plants -- Development, Plants -- Research, Agricultural industry, Business
Abstract

Field experiments were conducted over two years at two locations in Illinois to investigate the response of soybean [Glycine max (L.) Merr.] to simulated hail injury applied at the cotyledon (VC) stage. Removal of one or both cotyledons from all plants or of both cotyledons from alternating plants did not reduce mature plant height or yield in any environment. Cutting the stem off just below the unifoliolate node, alone or in conjunction with the removal of a single cotyledon, reduced yield by 11 to 21% in three of the four environments. It appears that soybean cotyledons are of little importance once the unifoliolate leaves have expanded.

Published
2008

19. Planting date influence on soybean agronomic traits and seed composition in modified fatty acid breeding lines

Author

Ray, C.L., Shipe, E.R., and Bridges, W.C.

Subjects
Soybean -- Environmental aspects, Soybean -- Composition, Soybean -- Genetic aspects, Planting time -- Influence, Fatty acids -- Control, Fatty acids -- Environmental aspects, Cultivars -- Genetic aspects, Cultivars -- Composition, Cultivars -- Environmental aspects, Soy oil -- Composition, Soy oil -- Quality management, Agricultural industry, Business
Abstract

A primary focus for soybean [Glycine max (L.) Merr.] breeders recently has been the development of cultivars with improved oil qualities such as reduced palmitic acid (16:0) and linolenic acid (18:3). A backcross breeding program was used to develop five low 16:0, two low 16:0 + 18:3, and one low 18:3 modified fatty acid breeding lines (MFALs). Research objectives were (i) to determine planting date effects on fatty acid content in the eight MFALs and (ii) to compare the MFALs to parental cultivars for seed composition and agronomic traits. The eight MFALs and four control cultivars were evaluated at two planting dates at Clemson, SC, in 2001, 2003, and 2004. Planting dates were chosen to simulate full season and double crop planting dates for South Carolina soybean production. Agronomic traits including seed yield, plant height, lodging, maturity date, seed size, and seed quality were measured, and seeds were analyzed for protein, oil, and fatty acid levels. Planting date had a significant effect on all agronomic variables, as well as on protein, oil, and palmitic and linolenic acid. There was a decrease in palmitic acid at the late planting date, while the early planting date resulted in a decrease in linolenic acid levels. The effect of genotype was significant for all agronomic and seed composition variables measured when averaged across planting dates. It appears that planting date may be manipulated to reduce palmitic or linolenic acid of MFALs, although the extent of the reduction varies with genotype.

Published
2008

20. Pollen-based screening of soybean genotypes for high temperatures

Author

Salem, Mohammed A., Kakani, Vijaya Gopal, Koti, Sailaja, and Reddy, K. Raja

Subjects
Soybean -- Genetic aspects, Soybean -- Environmental aspects, Soybean -- Research, Genotype -- Research, Pollen -- Environmental aspects, Pollen -- Research, Pollen -- Genetic aspects, Agricultural industry, Business
Abstract

Soybean [Glycine max (L.) Merr.] reproduction is sensitive to temperatures > 35[degrees]C. Two studies were conducted to determine temperature effects on soybean pollen germination (PG) and to detect genotypic differences. Pollen collected from 44 genotypes (Maturity Groups III to VI) grown outdoors was subjected to in vitro temperatures from 15 to 50[degrees]C at 5[degrees]C intervals. Genotypes differed significantly for in vitro PG percentage (mean of 81%) and tube length (mean of 437 [micro]m). Mean cardinal temperatures ([T.sub.min], [T.sub.opt], and [T.sub.max]) were 13.2, 30.2, and 47.2[degrees]C for PG and 12.1, 36.1, and 47.0[degrees]C for pollen tube growth. Genotypes differed for leaf cell membrane thermostability (CMTS), but CMTS did not correlate with pollen parameters. Cumulative temperature response index, CTRI (unitless), of each genotype calculated as the sum of eight individual stress responses (ISRs) derived from maximum PG, maximum pollen tube length (PTL), and the maximum ([T.sub.max]), minimum ([T.sub.min]), and optimum ([T.sub.opt]) temperatures for PG and for PTLs was used to group genotypes for temperature tolerance. Heat-tolerant genotype (DG 5630RR) was less sensitive to high temperature (38/30[degrees]C) compared with heat-intermediate (PI 471938) and heat-sensitive (Stalwart III) genotypes that had deformed pollen, with reduced apertures and collumellae heads. Hence, pollen can be used as a screening tool for heat tolerance. Most sensitive to temperature was D88-5320 with a CTRI of 6.8, while AG 4403RR was most tolerant with a CTRI of 7.5. Elevated [C[O.sub.2]] did not modify reproductive parameters or CTRI. The study also revealed that heat tolerance of vegetative tissue had little or no relationship with the heat tolerance of reproductive tissue. Maturity groups lacked a specific trend for tolerance to high temperature. The identified high temperature-tulerant genotypes and temperature-dependent pollen response functions might be useful in soybean breeding and modeling programs, respectively.

Published
2007

21. Genotypic variation for three physiological traits affecting drought tolerance in soybean

Author

Hufstetler, E. Vicki, Boerma, H. Roger, Carter, Thomas E., Jr., and Earl, Hugh J.

Subjects
Soybean -- Physiological aspects, Soybean -- Research, Soybean -- Genetic aspects, Soybean -- Environmental aspects, Genotype -- Research, Agricultural industry, Business
Abstract

Three physiological traits that may affect performance of soybean [Glycine max (L.) Merr.] when soil water availability is limiting are (i) water use efficiency (WUE), (ii) regulation of whole plant water use in response to soil water content, and (iii) leaf epidermal conductance ([g.sub.e]) when stomata are closed. Six soybean plant introductions (PIs), eight breeding lines derived from them, and nine cultivars were compared for variability in these three traits during vegetative growth in two greenhouse studies. In the first experiment, whole plant water use, normalized both to plant size and evaporative demand (the normalized transpiration ratio, NTR), was monitored during a 10-d cycle of gradually increasing drought stress and then for an additional 2 d following rewatering. The critical soil water content at which each plant began to reduce its water use (FFS[W.sub.c]), was determined. The WUE was estimated as the ratio of total plant dry weight to total water used. In the second experiment, [g.sub.e] was determined for these same 23 genotypes by measuring leaf water vapor exchange after a 36-h dark adaptation. Substantial variation was found among genotypes for WUE, FFS[W.sub.c], [g.sub.e], and also the extent to which NTR recovered on rewatering. Generally, adapted cultivars had greater WUE and lower [g.sub.e] than did PIs. However, PI 471938 and its progeny N98-7264 were clear exceptions to this trend. An unexpected finding was that WUE was significantly negatively correlated with [g.sub.e] across genotypes.

Published
2007

22. Dehydrin-like proteins in soybean seeds in response to drought stress during seed filling

Author

Samarah, N.H., Mullen, R.E., Cianzio, S.R., and Scott, P.

Subjects
Soybean -- Physiological aspects, Soybean -- Nutritional aspects, Soybean -- Environmental aspects, Droughts -- United States, Droughts -- Environmental aspects, Agricultural industry, Business
Abstract

There is no information on accumulation of dehydrin proteins during seed development and maturation of soybean [Glycine mar (L.) Merr.] in response to drought stress. Our objective was to study accumulation of dehydrin-like proteins in developing soybean seeds in response to drought stress. A greenhouse experiment and a field experiment were conducted. In the greenhouse experiment, three treatments were imposed on soybean plants after beginning of linear seed filling ([R.sub.5]): well-watered (WW), gradual stress (GS) imposed before severe stress, and sudden severe stress (SS). In the field treatments were irrigation (I) and nonirrigation (NI) (rainfed) conditions imposed from [R.sub.5] to [R.sub.8] (mature seeds). Greenhouse results indicated dehydrin-like proteins (28 and 32 kDa) were detected 18 d after [R.sub.5] ([R.sub.5,8]) in developing seeds from drought-stressed plants but not in seeds from the well-watered plants. In the mature seeds, dehydrin-like proteins (28, 32, and 34 kDa) were detected in seeds from drought-stressed plants as well as the well-watered plants. In the field, dehydrin-like proteins accumulated similarly under irrigation and nonirrigation conditions, with the first detection for dehydrins (28 and 32 kDa) at 22 d after [R.sub.5] ([R.sub.6]). Accumulation of dehydrin-like proteins was maximalin seeds harvested at 43 d after [R.sub.5] (seed physiological maturity).

Published
2006

23. Differential responses of the cultivated and wild species of soybean to dehydration stress

Author

Chen, Yanyun, Chen, Pengyin, and de los Reyes, Benildo G.

Subjects
Soybean -- Genetic aspects, Soybean -- Environmental aspects, Dehydration (Physiology) -- Environmental aspects, Cultivars -- Environmental aspects, Agricultural industry, Business
Abstract

The Dehydration Responsive Element-Binding protein/C-repeat Binding Factor (DREB/CBF) plays important roles in regulating physiological processes and downstream gene expression for drought stress in Arabidopsis thaliana, rice, and wheat. 'Essex' soybean [Glycine max (L.) Merr.] was identified as tolerant and a wild soybean PI 407155 (Glycine soja Sieb. & Zucc.) as more tolerant to dehydration stress in a greenhouse screen. In this study, we cloned and characterized the Glycine DREB1 (GlyDREB1) from the dehydration-induced PI 407155 and Essex using a semi-quantitative RT-PCR, rapid amplification of eDNA ends (RACE), and northern blot. We also investigated the physiological characteristics including biomass accumulation, moisture content, and electrolyte leakage for both soybean genotypes under dehydration stress. Analysis of homologous GlyDREB1 genes from PI 407155 and Essex indicated differences in both the timing and strength of expression under dehydration stress. The GlyDREB1 in PI 407155 was rapidly induced in 1 h of dehydration shock and the transcription level was much higher than that in Essex. The root system of PI 407155 maintained higher moisture content and biomass accumulation than that of Essex on the 15 d without irrigation. The percentage electrolyte leakage in Essex was almost twice that in PI 407155 under 5 d no irrigation treatment. Both molecular and physiological studies indicated that PI 407155 had higher level of tolerance to dehydration stress than Essex, therefore providing a new potential soybean genome for developing dehydration stress cultivars.

Published
2006

24. Soybean maturity groups, environments, and their interaction define mega-environments for seed composition in Argentina

Author

Dardanelli, Julio L., Balzarini, Monica, Martinez, Maria Jose, Cuniberti, Martha, Resnik, Silvia, Ramunda, Silvina F., Herrero, Rosana, and Hector, Baigorri

Subjects
Soybean -- Environmental aspects, Cultivars -- Environmental aspects, Agricultural industry, Business
Abstract

Argentina is the largest soybean [Glycine max (L.) Merrill] meal and oil exporter in the world, with crops covering a 23[degrees] to 39[degrees] S latitude range, allowing the presence of genotypes from different maturity groups (MG). Multi-environment yield trials (MET) for commercial cuitivars are conducted each year across the crop area. The aim of this paper was to evaluate the consistency of MG effects and its interaction with environments (E), first to investigate if different mega-environments (ME) for oil, protein, and oil + protein exist in Argentina, and second to identify superior MG regarding these traits. We analyzed a 3-yr series of oil and protein data from MET involving six MG and more than 14 E per year. Statistical analysis was based on ANOVA and graphical displays from E-centered biplots to explore MG-related effects and to identify ME. No ME were identified for oil content because of MG II, III, and IV showed higher content than other groups in every E. Two or three ME (depending on the growing season) were identified for protein and oil + protein contents; in one of them MG VI cultivars had the highest value of these compounds whereas in the other set of E, higher yielding cultivars were from MG II-III. The oil variations among E depended mainly on MG effects suggesting broad adaptations of short MG, whereas MG x E interaction effects for protein and oil + protein were higher than for oil, and enough to create opportunities for handling environment-specific adaptations.

Published
2006

25. Effect of cover crops alfalfa, red clover, and perennial ryegrass on soybean cyst nematode population and soybean and corn yields in Minnesota

Author

Chen, Senyu, Wyse, Donald L., Johnson, Gregg A., Porter, Paul M., Stetina, Salliana R., Miller, Daniel R., Betts, Kevin J., Klossner, Lee D., and Haar, Milton J.

Subjects
Corn -- Diseases and pests, Corn -- Environmental aspects, Soybean -- Diseases and pests, Soybean -- Environmental aspects, Plant nematodes -- Control, Agricultural industry, Business
Abstract

The effects of alfalfa, red clover, and perennial ryegrass as cover crops on soybean cyst nematode (SCN) and soybean and corn yields were evaluated in Waseca, Lamberton, and Rosemount, MN. The cover crops were interseeded in soybean at 0 or 2 wks after planting soybean in 2002 and killed with herbicide before planting corn in 2003. As expected, SCN-susceptible soybean supported higher SCN population density than SCN-resistant soybean. Reduction of SCN population density by red clover (up to 40%) and alfalfa (up to 55%) was observed in some sampling occasions at Lamberton and Rosemount, probably due to reduced soybean growth, but the effect was inconsistent. No significant reduction of SCN population by the two crops was detected at Waseca. While perennial ryegrass did not affect SCN population density in most cases, up to 46% higher egg population densities were observed in the perennial ryegrass treatment as compared to the control at Waseca. SCN-resistant soybean produced higher yield than susceptible soybean at all sites. While alfalfa reduced soybean yield at Lamberton (up to 50%) and Rosemount (up to 11%), red clover and perennial ryegrass reduced soybean yield only at Lamberton (up to 38%) and Waseca (up to 34%), respectively. No difference in corn yield was observed at Waseca. At Lamberton, alfalfa and red dover planted at the time of planting soybean reduced corn yield in the following year 17 and 13%, respectively, and perennial ryegrass planted 2 wks after planting soybean reduced corn yield 13%. At Rosemount, significant reduction of corn yield was observed with red clover (15-21%) interseeded in SCN-snsceptible soybean and with alfalfa (12%) and red clover (12%) interseeded in SCN-resistant soybean at the time of planting soybean. The results suggest that an even later planting date of cover crops in soybean may reduce yield loss due to competition and make these cover crops more appropriate for use in the soybean-corn rotation in Minnesota.

Published
2006

26. Influence of large amounts of nitrogen on nonirrigated and irrigated soybean

Author

Ray, Jeffery D., Heatherly, Larry G., and Fritschi, Felix B.

Subjects
Soybean -- Environmental aspects, Irrigation -- Environmental aspects, Soils -- Nitrogen content, Agricultural industry, Business, Environmental aspects
Abstract

Nitrogen supplied by [N.sub.2] fixation to soybean [Glycine may (L.) Merr.] may not be sufficient to maximize yield. Field studies were conducted in 2002, 2003, and 2004 on Sharkey clay soil (very-fine, smectitic, thermic Chromic Epiaquert) at Stoneville, MS (33°26' N lat). The objective was to determine the effect of high rates of N applied as a replacement for [N.sub.2] fixation in nonirrigated and irrigated environments. Eight cultivars ranging from Maturity Group II to IV were planted on 17 Apr. 2002, 2 Apr. 2003, and 25 Mar. 2004. Not all cultivars were evaluated in all 3 yr. Glyphosate herbicide was used in all 3 yr and a non-glyphosate herbicide treatment was applied in 2002. Cultivars grown in 2003 were also evaluated under an application of 21.3 kg [ha.sup.-1] of Mn. All cultivar, herbicide, and Mn treatments were evaluated in irrigated and nonirrigated environments with fertilizer N (PlusN treatment) or without fertilizer N (ZcroN treatment). In the PlusN treatment, granular N[H.sub.4]N[O.sub.3] was surface applied at soybean emergence at rates of 290 kg [ha.sup.-1] in 2002, 310 kg [ha.sup.-1] in 2003, and 360 kg [ha.sup.-1] in 2004. When analyzed over all management practices (years, cultivars, herbicide, and Mn treatments), the PlusN treatment resulted in significantly decreased ureide concentration (57.2 and 53.5% reduction) and significantly increased biomass accumulation (14.1 and 16.7%), N accumulation (12.8 and 28.1%), and seed yield (7.7 and 15.5%) for the irrigated and nonirrigated environments, respectively. The majority of the yield increase in each environment resulted from increased number of seed (9.5% irrigated and 16.2% nonirrigated). These results confirm the sensitivity of [N.sub.2] fixation to drought and indicate that Ns fixation may limit yield of soybean grown in both irrigated and nonirrigated environments of the midsouthern USA, and that [N.sub.2] fixation deficiencies occur before the beginning of processes that determine number of seed., WATER DEFICIT STRESS (drought) is difficult to define and quantify because the magnitude of its effect depends on numerous crop (species, cultivar, phenology, etc.) and environmental factors (intensity, duration, evaporative [...]

Published
2006

27. Soybean seed quality reductions by high day and night temperature

Author

Gibson, L.R. and Mullen, R.E.

Subjects
Soybean -- Environmental aspects, Seeds -- Quality, Germination -- Research, Agricultural industry, Business
Abstract

Environmental stress during reproductive growth of soybean [Glycine max (L.) Merr.] may reduce seed germination and vigor. Most studies of environmental influence on soybean seed germination and vigor have concentrated on the effects of drought, maximum day temperature, or average daily temperature during seed fill. This study was conducted to determine the effects of different combinations of day temperatures and night temperatures during reproductive growth on soybean seed quality. Day/night temperatures of 30/20, 30/30, 35/20, and 35/30 [degrees] C were imposed at flowering and pod set (R1-R5), seed fill and maturation (R5-R8), and during the entire reproductive growth period (R1-R8). High day and night temperature reduced soybean seed germination and seedling vigor. The extent of reductions in germination and vigor by high temperature was influenced by duration of temperature exposure and phase of reproductive growth. Temperatures during flowering and pod set exerted little influence on soybean seed quality. A combination of 35 [degrees] C day temperature and 30 [degrees] C night temperature during seed fill and maturation or 35 [degrees] C day temperature from flowering to maturity decreased germination. Seedling vigor was reduced by 35/20, 30/30, and 35/30 [degrees] C during seed fill and maturation and the entire reproductive period. Increase in night temperature from 20 to 30 [degrees] C decreased seedling vigor at both 30 and 35 [degrees] C day temperatures. These results suggest that locational and seasonal differences in soybean seed quality may be induced by high temperatures during reproductive growth and indicate that night temperatures along with day temperatures are important in determining soybean seed quality.

Published
1996

28. Comparison of two phenology models for predicting flowering and maturity date of soybean

Author

Piper, Ernest L., Boote, Kenneth J., Jones, James W., and Grimm, Sadi S.

Subjects
Phenology -- Models, Soybean -- Environmental aspects, Plants, Flowering of -- Flowering time, Agricultural industry, Business
Abstract

Unbiased prediction of plant growth stages is essential for accurate simulation of stage-specific responses to environmental factors. The phenology model in SOYGRO V5.42 was compared with the phenology model in CROPGRO V3.0 for prediction of flowering and maturity date. Data came from 17 sources in North America and covered a wide range of maturity groups. An additional large-scale data set from the U.S. Soybean Uniform Tests was used to evaluate predictions of maturity date. Parameters of the phenology models were estimated with an optimization procedure in which the downhill simplex method determined the direction of the search. While the optimization procedure was valuable to estimate the parameters, additional criteria were required to obtain realistic values. Based on the root mean square error (RMSE) criterion between predicted and observed dates, SOYGRO and CROPGRO predicted flowering equally well. Development rate after flowering was underpredicted by SOYGRO in cool environments so that in some years, maturity was predicted very late. CROPGRO has a separate temperature function after beginning seedfill, which decreased the RMSE for prediction of maturity date compared with SOYGRO, especially for early maturity cultivars. Allowing the critical short day length to increase after flowering date in the CROPGRO model consistently decreased the RMSE for prediction of beginning seed fill and maturity. CROPGRO was superior to SOYGRO for prediction of maturity date.

Published
1996

29. Yield and germinability of seed from irrigated and nonirrigated early- and late-planted MG IV and V soybean

Author

Heatherly, Larry G.

Subjects
Seeds -- Quality, Soybean -- Environmental aspects, Plant-water relationships -- Research, Agricultural industry, Business
Abstract

Drought stress in the midsouthern USA reduces yield of soybean [Glycine max (L.) Merr.] planted in May and June and sometimes affects germination of harvested seed. Irrigation often increases yield, and may also increase seed germinability. Field experiments were conducted on Sharkey clay (Vertic Haplaquept, very-fine, montmorillonitic, termic) in 1992, 1993, and 1994 at Stoneville, MS. The objective was to determine the effects of earlier-than-normal (April) and normal (May) planting dates on yield and germinability of harvested seed of Maturity Group (MG) IV and V soybean cultivars grown in nonirrigated (NI) and furrow-irrigated (I) environs. In 1992, germination of seed of all cultivars harvested from the NI (14-73%) and I (36-77%) 15 April plantings was lower than that of seed harvested from the 27 May plantings. In 1993 and 1994, germination of all harvested seed averaged more than 90%. Without irrigation, seed yield from the April plantings exceeded that from the May plantings every year. The difference was greatest in 1992 (3170 vs. 2190 kg [ha.sup.-1]) and least in 1993 (1432 vs 1295 kg [ha.sup.-1]). In 1992, the 4195 kg [ha.sup.-1] average yield with irrigation from the 15 April planting exceeded the 2979 kg [ha.sup.-1] average yield from the 27 May planting. In 1994, yield of all irrigated cultivars in the 21 April planting equalled or exceeded the yield of the same cultivars planted on 13 May. Yields of MG V cultivars were equal to or greater than those of MG IV cultivars in both I and NI plantings in all years. These results demonstrate that April vs. normal May plantings of both MG IV and V cultivars can increase yields when grown with and without irrigation in the midsouthern USA.

Published
1996

30. Influence of tillage systems on weed population dynamics and management in corn and soybean in the central USA

Author

Buhler, Douglas D.

Subjects
Weeds -- Research, Tillage -- Research, Corn -- Environmental aspects, Soybean -- Environmental aspects, Agricultural industry, Business
Abstract

Species composition and population densities of weed communities of arable land reflect agronomic practices. The trend toward reducing tillage in corn (Zea mays L.) and soybean [Glycine max (L.) Merr.] production changes the environment where weeds are managed, survive, and reproduce. The shift from tillage systems that include extensive annual soil disturbance to systems that minimize soil disturbance will cause major changes in weed population dynamics. These changes often reduce the effectiveness of weed control practices. Reduced herbicide efficacy has slowed adoption of conservation tillage because many conservation tillage systems rely heavily on herbicides for weed management. Poor understanding of weed population dynamics and lack of suitable control alternatives often result in increased herbicide use in conservation tillage systems. While results have varied among experiments, some general trends in weed population dynamics have arisen as tillage is reduced. These include increased populations of perennial, summer annual grass, biennial, and winter annual species. Densities of large-seeded dicot species often decrease. The ecological and management aspects of these changes are varied and complex. Effective, economical, and environmentally sound weed management in conservation tillage systems will require integration of new information with established principles of weed management. New management systems and control technologies are needed to develop integrated weed management systems for the altered ecosystems created by conservation tillage production systems.

Published
1995

31. Drought stress and irrigation effects on germination of harvested soybean seed

Author

Heatherly, Larry G.

Subjects
Soybean -- Environmental aspects, Germination -- Environmental aspects, Agricultural industry, Business
Abstract

Drought stress consistently reduces soybean (Glycine max (L.) Merr.) yield, while irrigation increases yields above nonirrigated levels in the southern USA in most years. Little information is available regarding drought stress and irrigation effects on quality of harvested soybean seed in this region, however. Field experiments using Maturity Group (MG) IV, V, and VI soybean cultivars were conducted in 1990 and 1991 at Stoneville, MS, to evaluate effects of drought and irrigation during reproductive development on subsequent germination of harvested seed. Treatments included a nonirrigated (NI) control and furrow irrigation (I) applied at various times during the reproductive period (R1-R6) in four different experiments. All experiments were grown on Sharkey clay (very-fine, montmorillonitic, nonacid, thermic Vertic Haplaquept), a major soil in the alluvial plain of the lower Mississippi River Valley. Irrigation significantly increased seed yield and number of seed from all cultivars in all experiments. Effect of irrigation on weight per seed was none or small relative to effects on seed yield and number of seed. Drought stress resulted in significantly inferior quality (standard germination

Published
1993

32. Using independent culling to screen plant introductions for combined resistance to soybean cyst nematode and sudden death syndrome

Author

Gelin, J.R., Arelli, P.R., and Rojas-Cifuentes, G.A.

Subjects
Soybean -- Diseases and pests, Soybean -- Environmental aspects, Plant nematodes -- Control, Agricultural industry, Business
Abstract

Two infectious diseases that cause most yield losses in soybean [Glycine max (L.) Merr.] are soybean cyst nematode (SCN), caused by Heterodera glycines Ichinohe, and sudden death syndrome (SDS), caused by Fusarium solani (Mart.) Sacc. f. sp. glycines (Fsg). Because SCN and SDS have a synergistic effect on yield when they occur jointly in the field, breeders are attempting to develop varieties with dual resistance to these two diseases. Using independent culling as a selection strategy, we screened a set of 31 new soybean plant introductions (PI) that were field evaluated in 1995 at two locations in Southern Illinois. We identified 11 elite PIs that were resistant to SCN race 3, had yellow seed coat, a relatively good field response to SDS, and a moderate seed yield. These superior genotypes can be used as potential parents in soybean breeding programs.

Published
2006

34. Soybean Response to Water: A QTL Analysis of Drought Tolerance

Author

Specht, J. E., Chase, K., Macrander, M., Graef, G. L., Chung, J., Markwell, J. P., Germann, M., Orf, J. H., and Lark, K. G.

Subjects
Soybean industry -- Management -- Environmental aspects, Agricultural industry -- Environmental aspects, Agriculture -- Environmental aspects, Droughts -- Environmental aspects -- United States, Soybean -- Environmental aspects, Water -- Environmental aspects, Agricultural industry, Business, Company business management, Management, Environmental aspects
Abstract

Soybean [Glycine max (L.) Merr.] yield, when regressed on water needed to replenish 0 to 100% seasonal evapotranspiration (ET), generates an estimate of season-specific water-use efficiency (WUE). The impact of unpredictable water deficits might be lessened if high-yielding genotypes had a smaller beta. Our objective was to determine the genetic basis of beta and carbon isotope discrimination (CID), a theorized indicator of transpiration efficiency (TE). A `Minsoy' x `Noir 1' population of 236 recombinant inbred lines (RILs), genotyped at 665 loci, was evaluated in six water treatments (100, 80, 60, 40, 20, and 0% ET) for 2 yr. Water stress was mild in 1994, but high temperatures and no rainfall in 1995 led to a drought so severe that the 100% ET treatment required 41 cm of irrigation. The 1995 yield-to-water regression was highly linear (28 kg [ha.sup.-1] [cm.sup.-1]). Genotype x water (G x W) interaction was due to genotypic heterogeneity in beta. The CID vs. beta correlation was low (r = 0.26), so selection for better leaf TE may not improve crop WUE. Selection of low beta (less sensitivity to drought) will be difficult, given the yield beta vs. yield correlation (r = 0.71). The major quantitative trait loci (QTL) for yield beta, yield, and CID were coincident with maturity and/or determinancy QTLs, except for a CID QTL in linkage group U09-C2, but it had no effect on beta. Genetic improvement of soybean yield performance under drought would be better achieved by coupling a high-yield grand mean with a high- (not low-) yield beta., WATER IS THE PARAMOUNT ABIOTIC FACTOR affecting crop productivity (Boyer, 1982). Seasonal rainfall deficits account for much annual variation in crop yield. For example, Specht et al. (1999) showed that [...]

Published
2001

35. Good exports, and rain forecasted in the Midwest

Author

Utterback, Bob

Subjects
Midwestern United States -- Environmental aspects, Corn -- Forecasts and trends, Corn -- Environmental aspects, Corn -- Exports, Soybean -- Forecasts and trends, Soybean -- Environmental aspects, Soybean -- Exports, Weather forecasting, Market trend/market analysis, Agricultural industry, Business
Abstract

Weather forecasts for the Midwest are calling for warm to hot weather conditions along with scattered rain showers and thunderstorms. It seems as if this makes good growing conditions. For [...]

Published
2006

36. Production Journal

Author

Burchett, Andrew, Freiberg, Karen, and Henderson, Pam

Subjects
Rust fungi -- Environmental aspects, Soybean -- Protection and preservation, Soybean -- Environmental aspects, Market trend/market analysis, Agricultural industry, Business
Abstract

Rust Retrospect Positive soybean rust detections continue to pile up. 'We may not have had major yield losses from soybean rust in 2005, but the disease was more prevalent than [...]

Published
2005

37. Bird Flu Blues

Author

Utterback, Bob

Subjects
Soybean -- Market share, Soybean -- Environmental aspects, Avian influenza -- Health aspects, Company market share, Agricultural industry, Business
Abstract

The market continues to worry about bird flu hurting soybean meal demand. At this time, the circumstances merit a bearish course of action. The obvious end result: If the bird [...]

Published
2005

38. Harvest is almost over for soybeans

Author

Utterback, Bob

Subjects
Soybean -- Environmental aspects, Soybean -- Prices and rates, Soybean -- Supply and demand, Harvesting -- Environmental aspects, Company pricing policy, Agricultural industry, Business
Abstract

With the harvest just about over and a wet weekend you would think soybeans would at least bounce after last Friday's sharp price break. The futures, however, started the day [...]

Published
2005

39. Low impact?

Author

Muzzi, Doreen

Subjects
Soybean -- Environmental aspects, Soybean -- Diseases, Soybean industry -- Market research, Soybean industry -- Environmental aspects, Marketing research, Agricultural industry, Business, Chemicals, plastics and rubber industries
Abstract

U.S. SOYBEAN producers, bombarded almost daily with reports of new discoveries of Asian soybean rust, may be wondering at what point new findings of the disease no longer will be [...]

Published
2005

40. Don't Only Have Eyes for Rust

Author

Burchett, Andrew

Subjects
Rust diseases -- Control, Soybean -- Environmental aspects, Soybean -- Protection and preservation, Agricultural industry, Business
Abstract

When it comes to crop maladies, soybean rust is aninternational superstar. Like teenage girls lining up to catch a glimpse of the latest Latin American hit vocalist, farmers are all [...]

Published
2005

41. BREAKING NEWS

Subjects
Soybean -- Destruction, Soybean -- Environmental aspects, Agricultural industry, Business, Chemicals, plastics and rubber industries, American Soybean Association -- Services
Abstract

Soybean rust advances The American Soybean Association (ASA) has been alerted to a confirmed case of Asian soybean rust about five degrees north of the equator in South America. 'Confirmation [...]

Published
2004

42. Southern switch, Midwest questions: soybeans and corn push cotton aside while the Corn Belt endures a cold, wet spring

Author

Johnson, Charles

Subjects
Soybean -- Growth, Soybean -- Environmental aspects, Cotton -- Production management, Food crops -- Environmental aspects, Food crops -- Growth, Company growth, Agricultural industry, Business
Abstract

[ILLUSTRATION OMITTED] This spring, the South continued its transformation into a corn and soybean producing region. With cotton markets depressed, the old king of Southern crops is toppling from its [...]

Published
2009

43. Green groups press Brazil over soya

Author

Rowe, Mark

Subjects
Brazil -- Agricultural policy, Soybean -- Production processes, Soybean -- Environmental aspects, Business, Business, international, Food and beverage industries
Abstract

The Brazilian government is being pressured by green groups to address the environmental effects of soybean production. Soybean cultivation can lead to ecological damage due to deforestation and destruction of natural habitat. Several organizations led by the Global Roundtable on Responsible Soy Association (RTRS) are asking for sustainable development plans from the government.

Published
2007

44. Argentina soybean

Subjects
Agricultural land -- Statistics -- Forecasts and trends, Soybean -- Environmental aspects, Market trend/market analysis, Agricultural industry, Business
Abstract

Argentina soybean: In its weekly report last week, the Buenos Aires Grains Exchange reported that Argentina has reduced its 2013.14 seybean planting area estimates from 20.45 million hectares to 20:35= [...]

Published
2014

45. U.S.-ENVIRONMENT: BIOFUELS CONVERTING U.S. PRAIRIELANDS AT DUST BOWL RATES

Subjects
Deforestation -- Environmental aspects, Biomass energy -- Environmental aspects, Soybean -- Environmental aspects, Business, News, opinion and commentary
Abstract

By Joe Hitchon WASHINGTON, Feb. 23, 2013 (IPS/GIN) - The rush for biofuels in the United States has seen farmers converting the United States' prairie lands to farms at rates [...]

Published
2013

46. PA DCNR Supports 'Great Green America Fest' in Lancaster to Promote Stewardship

Subjects
Soybean -- Environmental aspects, Business, Science and technology, Green market, Environmental aspects
Abstract

Visitors Encouraged to 'Take Conservation Personally' HARRISBURG, Pa., July 11 /PRNewswire-USNewswire/ -- Visitors to the first 'Great Green America Fest,' July 13-15, will learn how to help make their community [...]

Published
2007

48. Bean pile

Author

McMahon, Chris

Subjects
Commodity markets -- Analysis, Soybean -- Environmental aspects, Soybean -- Economic aspects, Soybean -- Growth, Company growth, Business, Business, general
Abstract

While soybean acreage increased 17% from last year, it won't satisfy the 2009 usage table, having given way to very high-priced December 2008 corn. 'The farmer rightfully chose to plant [...]

Published
2008

49. A weather eye on grains

Author

Polansek, Tom

Subjects
Soybean -- Environmental aspects, Soybean -- Forecasts and trends, Corn -- Environmental aspects, Corn -- Forecasts and trends, Agricultural estimating and reporting, Market trend/market analysis, Banking, finance and accounting industries, Business
Abstract

The forecast about a harsh summer resulting in low yields of corn and soybean in the Medwest region of the United States is discussed.

Published
2007

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