Abstract: Background: Increased energy consumption in agriculture has led to growing environmental concerns and higher costs. The evolution of herbicide resistance in weeds may affect the herbicide application rate, energy consumption and greenhouse gas emissions. Objective: This study investigated the effect of herbicide resistance in weeds on energy consumption and greenhouse gas emissions in wheat fields of Golestan province, Iran. Methods: The data were collected from 351 wheat fields in Golestan province with respect to the proper distribution of sampling points. The farms were categorized into four classes according to the previous studies: 1) non-resistant fields; 2) fields with resistance to ACCase (acetyl-coenzyme A carboxylase) inhibitors; 3) fields with resistance to ALS (acetolactate synthase) inhibitors; and 4) fields with resistance to both ACCase and ALS inhibitors. Then, input and output energy, energy use efficiency, energy productivity, specific energy, net energy, percentage of direct, indirect, renewable and non-renewable energies, and greenhouse gas emission during wheat production were calculated. Results: Compared to non-resistant fields, evolution of resistance to herbicides led to increased energy consumption (5.7-8.2%) and yield loss (21.8-25.6%) and consequently, there was a decrease in net energy (25.6-31.3%), energy productivity (27.2-31.8%) and energy use efficiency (24.7-30.4%). Also, greenhouse gas emissions from the non-resistant fields were 7.4-10.0% lower than in the fields with herbicide-resistant weeds. Conclusions: Noting the negative effect of herbicide resistance in terms of energy consumption and greenhouse gas emission, efforts to properly manage herbicide-resistant weeds are essential both economically and ecologically. Abstract Background costs rate Objective Iran Methods 35 points studies 1 nonresistant non resistant 2 acetylcoenzyme acetyl coenzyme carboxylase inhibitors 3 acetolactate synthase 4 Then direct indirect nonrenewable energies calculated Results 5.78.2% 5782 5.7 8.2% 5 7 8 (5.7-8.2% 21.825.6% 218256 21.8 25.6% 21 25 6 (21.8-25.6% consequently 25.631.3%, 256313 25.6 31.3% , 31 (25.6-31.3%) 27.231.8% 272318 27.2 31.8% 27 (27.2-31.8% 24.730.4%. 247304 24.7 30.4% . 24 30 (24.7-30.4%) Also 7.410.0% 74100 7.4 10.0% 10 0 7.4-10.0 herbicideresistant Conclusions ecologically 78 5.78.2 578 57 5. 82 8.2 (5.7-8.2 825 21.825.6 21825 218 21. 256 (21.8-25.6 631 25.631.3% 25631 25. 313 31.3 (25.6-31.3% 231 27.231.8 27231 272 27. 318 31.8 (27.2-31.8 730 24.730.4% 24730 247 24. 304 30.4 (24.7-30.4% 410 7.410.0 7410 74 7. 100 10.0 7.4-10. 5.78. 8. (5.7-8. 21.825. 2182 (21.8-25. 63 25.631.3 2563 31. (25.6-31.3 23 27.231. 2723 (27.2-31. 73 24.730.4 2473 30. (24.7-30.4 41 7.410. 741 10. 7.4-10 5.78 (5.7-8 21.825 (21.8-25 25.631. (25.6-31. 27.231 (27.2-31 24.730. (24.7-30. 7.410 7.4-1 (5.7- 21.82 (21.8-2 25.631 (25.6-31 27.23 (27.2-3 24.730 (24.7-30 7.41 7.4- (5.7 (21.8- 25.63 (25.6-3 (27.2- 24.73 (24.7-3 (5. (21.8 (25.6- (27.2 (24.7- (5 (21. (25.6 (27. (24.7 ( (21 (25. (27 (24. (2 (25 (24

RESUMO: Biótipos de Oryza sativa L., arroz vermelho, são uma séria ameaça à produção de arroz devido à sua flexibilidade no tempo de germinação das sementes, formas de crescimento variáveis e alta diversidade genética. Os experimentos foram projetados para entender os efeitos das condições de armazenamento, estresse osmótico, pH, estresse salino e profundidade de semeadura na germinação de sementes de arroz vermelho em condições de inundação ou não. Sementes maduras de arroz vermelho foram colhidas em campos de arroz em diferentes regiões da Turquia. Três biótipos foram selecionados e classificados de acordo com o comprimento da arista longa, curta e sem arista. Padrões sazonais de germinação de sementes de arroz vermelho no laboratório após a recuperação em várias profundidades e tempos foram afetados pela profundidade de semeadura, regime de água e tempo de permanência no solo entre os tratamentos para todos os biótipos. Os biótipos de arista longa e curta tiveram taxas de germinação mais altas do que o biótipo sem arista e não apresentaram um padrão de germinação sazonal. A germinação das sementes foi iniciada na primavera, atingiu o pico no verão e diminuiu no outono em tratamentos com alagamento e sem alagamento para o biótipo sem armação. As diferenças mais nítidas nos padrões de emergência de plântulas foram observadas em biótipos sem e com arista longa, e emergiram a partir de 10 cm de profundidade. Nossos resultados sugerem que as condições de inundação reduziram a germinação de biótipos de arroz vermelho Parece que inundar os arrozais por um período de tempo após a colheita pode melhorar o controle do arroz vermelho e diminuir a população de arroz vermelho. Além disso, o cultivo mais profundo seria mais eficaz no controle de todos os biótipos de arroz vermelho, uma vez que a maioria da emergência de plântulas de arroz vermelho ocorreu em profundidades rasas.

ABSTRACT: Weedy biotypes of Oryza sativa L., (weedy rice) are a serious threat to rice production because of their flexibility in seed germination timing, variable growth forms, and high genetic diversity. Experiments were designed to determine the effects of storage conditions, osmotic stress, pH, salt stress, and burial depth on germination of weedy rice seeds in flooded or non-flooded conditions. Mature weedy rice seeds were gathered from rice fields in the different regions of Turkey. Three biotypes were selected and classified according to awn length; long awn, short awn and awnless. Seasonal germination patterns of weedy rice seeds in the laboratory after retrieval from various depths and timing were affected by burial depth, water regime, and exhumation timing across the treatments for all biotypes. The long and short awn biotypes had higher germination rates than the awnless biotype and did not have a seasonal germination pattern. Seed germination was initiated in the spring, peaked in summer and declined in the fall in flooded and non-flooded treatments for the awnless biotype. The most distinct differences in seedling emergence patterns were observed in awnless and long awn biotypes, and they emerged from 10 cm depth. Our results suggested that flooded conditions reduced the germination of weedy rice biotypes. Flooding rice paddies for a period of time after harvest may improve weedy rice control and decrease the weed population. In addition to deeper cultivation would be more effective in controlling all weedy biotypes since the majority of weed seedling emergence was from shallow depths.

Abstract Background: Inconsistent control of Barnyardgrass has been reported repeatedly by farmers in major rice growing areas of Iran and Turkey. Objective: Thus, a greenhouse study was conducted to investigate the resistance of Barnyardgrass to acetyl CoA carboxylase (cyhalofop-butyl) and acetolactate synthase (penoxsulam, bispyribac-sodium) inhibiting herbicides. Methods: The seeds were sown in pots in a greenhouse and after screening, were sprayed with various rates of cyhalofop-butyl, penoxsulam and bispyribac-sodium herbicides at 3-4 leaf stage. Four weeks later, the above ground biomass was cut, dried in an oven and weighted. The results were then analyzed in the R software (drc package) using a four or three parameter log-logistic function. All experiments were repeated twice. Results: While 30% of biotypes collected from Turkey were not controlled by ACCase inhibitors at twice the recommended rates, no resistance was observed in Iran’s samples. Only one biotype exhibited cross-resistant to penoxsulam and bispyribac-sodium in Iran, which was due to consecutive application of herbicides with modes of action similar to these herbicides. In contrast, several Turkish biotypes showed cross-resistance as well as multiple resistance to ACCase and ALS inhibitors. Conclusions: The rapid expansion of herbicide resistance in both countries indicate the necessity of adopting integrated weed management practices to hinder the further evolution of resistance in future.