Your search keyword '"Yield components"' showing total 5,539 results

1. Foliar application of esculin and digitoxin improve the yield quality of salt-stressed flax by improving the antioxidant defense system.

Author

Khattab, Hemmat I., Sadak, Mervat Sh., Dawood, Mona G., Elkady, Fatma M. A., and Helal, Nesma M.

Subjects

*PHENYLALANINE ammonia lyase, *SALT tolerance in plants, *SOLUTION (Chemistry), *CARDIAC glycosides, *METABOLITES

Abstract

Background: Secondary metabolites of several plants, including esculin and digitoxin, which are cardiac glycosides, were previously employed for their therapeutic effects. The current study aims to investigate the functions of the main Na+ /K+ transport inhibitor digitoxin and the antioxidant esculin for enhancing flax plant growth and production under salinity. Methodology: Flax plants were irrigated with distilled water supplemented with 0.0 and 5000 mg/L salt solution starting from 15 DAS from sowing. Then exogenous treatment with digitoxin and esculin with 50 mg L− 1 and 100 mg L− 1 were used for this work. Results: According to the results of this work, foliar spraying of esculin or digitoxin increased the salinity tolerance of flax plants.The foliar application of either esculin or digitoxin induced an elevation in the contents of photosynthetic pigments, osmolytes including soluble sugar and proline as well as the total phenols in salt-stressed flax plants. Moreover, esculin and digitoxin in particular counteract oxidative stress by increasing the activity of antioxidant enzymes including superoxide dismutase, catalase, peroxidase, phenylalanine ammonia-lyase, and tyrosine ammonia lyase, leading to a decrease in reactive oxygen species and lipid peroxidation levels and electrolyte leakage. The efficiency of esculin and digitoxin to sustain ion homeostasis by inhibiting Na+ absorption and increasing potassium, calcium, and phosphorus in flax plants may be the reason for their protective actions towards salinity.As a consequence, esculin and digitoxin increased yield quantity and quality as shown by increases in all investigated yield criteriaas shoot height, root length, their fresh and dry weights as well asseed yield/plant (g), and 1000 seeds weight, especially those that improved the desired oil properties. Conclusion: In conclusion, this study concluded that digitoxin was more effective in inhibiting Na+ build-up and increasing flax salinity tolerance, particularly at the high investigated dose as compared to esculin. In this study, we reported the recent findings of exogenousapplication of either digitoxin or esculin glycosides which are new investigated salt alleviators never used before for improving the salt tolerance in flax plants. [ABSTRACT FROM AUTHOR]

Published

2024

2. Early Flowering and Maturity Promote the Successful Adaptation and High Yield of Quinoa (Chenopodium quinoa Willd.) in Temperate Regions.

Author

Emrani, Nazgol, Maldonado-Taipe, Nathaly, Hasler, Mario, Patiranage, Dilan S. R., and Jung, Christian

Abstract

Quinoa (Chenopodium quinoa Willd.) can offer an alternative for staple food considering its tolerance to abiotic stresses and high seed quality. However, its cultivation in temperate regions has not been successful due to its photoperiod sensitivity and low seed yield. This study investigated the agronomical performance and quality traits of 48 accessions for cultivation in northern Europe. We conducted two-year field trials and phenotyped traits related to phenological development, plant architecture, yield components, seed quality, and disease resistance. The major determinants of seed yield in this study were days to flowering, days to maturity, thousand-kernel weight, and panicle density, while downy mildew susceptibility and stem lodging showed a negative correlation with seed yield. We developed a selection index to enable simultaneous selection based on different important agronomical traits. We evaluated the stability of different accessions over the two years of the experiment. Finally, we provided a list of 10 selected accessions that can be directly integrated and serve as new crossing parents in quinoa breeding programs for temperate regions. [ABSTRACT FROM AUTHOR]

Published

2024

3. Nutrient Mass in Winter Wheat in the Cereal Critical Window Under Different Nitrogen Levels—Effect on Grain Yield and Grain Protein Content.

Author

Grzebisz, Witold and Biber, Maria

Abstract

The mass of nutrients accumulated in the vegetative parts of winter wheat (WW) in the period from the beginning of booting to the full flowering stage (Critical Cereal Window, CCW) allows for the reliable prediction of the grain yield (GY) and its components, and the grain protein content (GPC) and its yield. This hypothesis was verified in a one-factor field experiment carried out in the 2013/2014, 2014/2015, and 2015/2016 growing seasons. The field experiment included seven nitrogen-fertilized variants: 0, 40, 80, 120, 160, 200, and 240 kg N ha−1. The N, P, K, Ca, Mg, Fe, Mn, Zn, and Cu content in wheat vegetative parts (leaves, stems) was determined in two growth stages: (i) beginning of booting (BBCH 40) and (ii) full flowering (BBCH 65). We examined the response of eight WW traits (ear biomass at BBCH 65, EAB; grain yield, GY; grain protein content, GPC; grain protein yield, GPY; canopy ear density, CED; number of grains per ear, GE; number of grains per m−2—canopy grain density, CGD; and thousand grain weight, TGW) to the amount of a given nutrient accumulated in the given vegetative part of WW before flowering. The average GY was very high and ranged from 7.2 t ha−1 in 2016 to 11.3 t ha−1 in 2015. The mass of ears in the full flowering stage was highest in 2016, a year with the lowest GY. The highest N mass in leaves was also recorded in 2016. Only the biomass of the stems at the BBCH 65 stage was the highest in 2015, the year with the highest yield. Despite this variability, 99% of GY variability was explained by the interaction of CGD and TGW. Based on the analyses performed, it can be concluded that in the case of large yields of winter wheat, GE is a critical yield component that determines the CGD, and in consequence the GY. The leaf nutrient mass at the BBCH 40 stage was a reliable predictor of the GPC (R2 = 0.93), GPY (0.92), GE (0.84), and CED (0.76). The prediction of the GY (0.89), CGD (0.90), and TGW (0.89) was most reliable based on the leaf nutrient mass at the BBCH 65 stage. The best EAB prediction was obtained based on the mass of nutrients in WW stems at the BBCH 65 stage. The magnesium accumulated in WW parts turned out to be, with the exception of TGW, a key predictor of the examined traits. In the case of the TGW, the main predictor was Ca. The effect of Mg on the tested WW traits most often occurred in cooperation with other nutrients. Its presence in the developed stepwise regression models varied depending on the plant part and the WW trait. The most common nutrients accompanying Mg were micronutrients, while Zn, Fe, Mn, and Ca were the most common macronutrients accompanying Mg. Despite the apparently small impact of N, its yield-forming role was indirect. Excessive N accumulation in leaves in relation to its mass in stems, which appeared in the full flowering phase, positively impacted the EAB and GPC, but negatively affected the GE. Increasing the LE/ST ratio for both Mg and Ca resulted in a better formation of the yield components, which, consequently, led to a higher yield. This study clearly showed that nutritional control of WW during the CCW should focus on nutrients controlling N action. [ABSTRACT FROM AUTHOR]

Published

2024

4. Yield and yield components of several bread wheat genotypes: toward adaptation to different environments.

Author

Ouhemi, Hanane, Amamou, Ali, Idrissi, Omar, Khouakhi, Khadija, and Boutfirass, Mohamed

Subjects

*GENOTYPE-environment interaction, *GERMPLASM, *STABILITY criterion, *GENOTYPES, *CLIMATE change

Abstract

In the current context of climate change, marked by severe drought and heat stresses, we hypothesized that the trait plasticity, opposite of stability, could be an important mechanism of reaching adaptability and therefore enhancing resilience. To assess this, we tested 10 promising genotypes under three environments (E1, E2, and E3) for yield and its components: Number of Spikes per m2 (NS/m2), Number of Spikelets per Spike (NSpk/S), Number of Grains per Spikelet (NG/Spk), Number of Grains per Spike (NG/S), Number of Grains per m2 (NG/m2); and Thousand Grain Weight (TGW). A highly significant effect (p < 0.01) of the environment (E) was observed for all traits. Additionally, a significant effect (p < 0.05) of genotype (G) was identified in all traits except TGW. While a significant effect (p < 0.05) of genotype by environment interaction (G×E) was noted for NSpk/S and TGW. The stability and plasticity criteria were reported as a positive way to achieve adaptability when they reflect a high yielding potential of stable or plastic traits. As depicted by GGE- analysis, the best stable genotypes with high performance were Kharouba for NS/m2, NG/S, and NG/m2, Amal for NG/S, 15/42, Malika, and 90-55-17 for NSpk/S, Achtar for NG/Spk, and 15/49 for TGW. While the plastic genotypes with high performance were 15/42 for NS/m2, Achtar for NG/S and NG/m2, Amal for NSpk/S and NG/Spk, and 90–55-17 for TGW. These genotypes that combine stability or plasticity criteria with high yielding performances hold promise as potential genetic resources in breeding programs aiming to achieve desirable yield component structure for better adaptability and resilience. [ABSTRACT FROM AUTHOR]

Published

2024

5. Potassium Application Impacts Chickpea Yield and Nutritional Status.

Author

Delfim, Jorge, Moreira, Adônis, and Moraes, Larissa Alexandra Cardoso

Subjects

*CROP yields, *PLANT nutrition, *GRAIN yields, *NUTRITIONAL status, *PLANT growth, *CHICKPEA

Abstract

As one of the three primary plant nutrients, plant growth and development depend on soil potassium (K) availability. However, plants often face K deficiency in the soil. Chickpea (Cicer arietinum L.) is an excellent source of vegetable protein. However, optimum chickpea growth is affected by K limitation. This study evaluated whether K application in an Oxisol influences chickpea growth, grain yield, and nutritional status. We conducted a greenhouse experiment in an Oxisol with four K application rates (0, 40, 80, and 150 kg ha−1) and four replicates. Our results showed that K application significantly increased chickpea grain yield (R2 = 0.968), shoot weight, root dry weight, and the number of pods. In addition, the K application rate in the soil increased with increasing K application rate. In addition, the concentrations of K and P in the grain are affected by K application. In addition, K improved the K concentration in the shoot (R2 = 0.756) and grain (R2 = 0.833). However, the application of high levels of K did not increase K accumulation in the seeds, indicating that the use of low doses of K (≤80 kg ha−1) is sufficient to support plant growth and nutrition and avoid K loss. Finally, the benefits of K in plants are more than an increase in the grain yield of crops. However, K plays a dominant role in the root system. For instance, this benefit enhances K acquisition from the soil for plants. [ABSTRACT FROM AUTHOR]

Published

2024

6. Study on production performance and nutritional quality of triticale cultivars in northwest Henan region.

Author

YUE Jing-zhi, SUN Mi-ping, CHEN Li, NIU Xiao-pei, ZHANG Yue-ling, DU Wen-hua, ZHANG Chun-rong, and BIAN Jing-jing

Abstract

The study aims to select high-yielding and high-quality triticale cultivars that are well-suited for cultivation in northwest Henan region through an evaluation of six triticale varieties (Triticosecale wittmack) in terms of forage production, quality, seed yield, and composition factors. The findings indicated noteworthy disparities among the tested varieties concerning forage production, nutritional quality, and seed yield. Notably, the 'GN2' cultivar exhibited the highest hay yield (21.49 t/hm²), number of branches (9 330 500 /hm²), and crude protein content (11.86%). Furthermore, 'ZS1257' demonstrated the highest seed yield (6.55 t/hm²) and spiked grain count (56.00 grains). The yield of triticale varieties showed an increasing and then decreasing trend with the increase in the number of tillers, it gradually decreased with the increase in the weight of individual leaves and stems. The contribution of related factors to the grain yield was in the following order: number of grains per ear > thousand-grain weight > number of tillers. The study indicates that through comprehensive evaluation, 'GN2' ranks first and can be promoted as a forage-type triticale for planting in the northwest Henan region. [ABSTRACT FROM AUTHOR]

Published

2024

7. Pathogen Identification and Resistance Screening of Fusarium Basal Rot in Taşköprü Garlic in Türkiye.

Author

Polat, Zühtü, Beşirli, Gülay, Derviş, Sibel, Özer, Göksel, Sezer, Satı Mehmet, and İpek, Mehmet

Abstract

Fusarium basal rot (FBR), caused by Fusarium spp., is a significant threat to garlic production globally, including in Türkiye, where the unique Taşköprü garlic is highly valued. This study investigated the diversity and aggressiveness of 77 Fusarium isolates obtained from disease surveys of FBR in Taşköprü garlic and evaluated the yield and resistance of 20 garlic accessions, including 18 local landraces, the locally developed 'Taşköprü 56', and the commercial Chinese variety 'ASCG'. Molecular identification using translation elongation factor 1‐α (TEF1) and second largest RNA polymerase II B‐subunit (RPB2) genes revealed F. oxysporum (67.5%) as the dominant species, followed by F. proliferatum (15.6%), F. solani (9.1%), F. redolens (5.2%) and F. clavum (2.6%), respectively. All isolates were pathogenic, but aggressiveness varied, with F. solani being the most aggressive, followed by F. redolens and F. oxysporum. While 'ASCG' exhibited the highest yield (3.15 ton/ha), it was highly susceptible to FBR (DSI = 97.50%). Conversely, the landrace ASTK2 displayed the highest resistance (DSI = 53.13%), but lower yield. Promisingly, several Taşköprü landraces, such as ASTK6 and ASTK13, demonstrated both moderate resistance and promising yield potential. Surprisingly, 'Taşköprü 56', despite being a locally developed variety, exhibited high susceptibility to FBR (DSI = 93.75%) and did not outperform many landraces in terms of yield. This study provides the first reports of F. redolens and F. clavum infecting garlic in Türkiye, and the first molecular characterisation of F. solani as a garlic pathogen in the country, highlighting the potential of local landraces for breeding FBR‐resistant, high‐yielding cultivars. [ABSTRACT FROM AUTHOR]

Published

2024

8. Effects of Sowing Dates and Phosphorus Application on Seed Yield and Yield Components of Alfalfa.

Author

Yuntao Wang, Jihong Xie, Zhen Sun, Qiqi Wang, and Linqing Yu

Subjects

*SEED yield, *PHOSPHATE fertilizers, *ARID regions, *FIELD research, *SEED pods, *SOWING, *ALFALFA

Abstract

Background: Alfalfa (Medicago sativa L.) is a globally important cool-season forage grass for semiarid regions and the demand for seeds is increasing with the increase of alfalfa planting area. However, its seed yield is often low or inconsistent. Methods: A field experiment was conducted to investigate the response of seed yield and yield components of alfalfa to different sowing dates and phosphorus (P) fertilization levels from 2020 to 2022. This research was conducted using a split-plot design in a randomized complete block, with four replications. The main plots were three sowing dates (20 July, 5 and 20 August) and subplots were five different rates (0, 40, 70, 100 and 130 kg P2O5 ha-1). Result: Our results revealed that delaying the sowing dates reduced seed yield, by influencing its yield components, except for the 1000-seed weight, but P fertilization enhanced the seed yield components affected by late sowing and increased seed yield, it is recommended to apply P fertilizer at 77.6~144.8 kg ha-1. Stem density and seeds per pod were the primary factors determining seed yield and they may be useful to consider in developing traits for high-seed-yield alfalfa. [ABSTRACT FROM AUTHOR]

Published

2024

9. A Synthesis Analysis of the Relationship between Main and Ratoon Crop Grain Yields in Ratoon Rice.

Author

Liu, Bin, Yuan, Shen, and Peng, Shaobing

Subjects

*CROP yields, *RICE breeding, *GRAIN yields, *SUSTAINABLE development, *CROPS, *RICE quality

Abstract

Ratoon rice represents a viable means to enhance rice production efficiency in terms of both area and time. Nonetheless, the development of specific varieties tailored for ratoon rice has been hindered by the complexity of trait considerations required during breeding/screening processes. A pivotal step towards advancing ratoon rice breeding programs involves reducing the dimensionality of selection traits. In this study, we performed a comprehensive analysis exploring whether the yield of the main crop could serve as a predictor for ratoon crop yield, thereby simplifying the selection process. Our findings revealed significant variability in the rice yields of both main and ratoon crops, with the ratoon crop yield averaging 51% of the main crop. Importantly, the correlation between grain yields of the main and ratoon crops did not deviate from the identity line, substantiating the feasibility of predicting ratoon crop yield based on the main crop yield. The number of panicles in the ratoon crops was found to be closely linked to that of the main crop; however, the size values of the panicles in the ratoon crops exhibited less of a dependency on the main crop's panicle size. Additionally, a general decrease in grain weight was observed in the ratoon crops compared to the main crop. In summary, this study elucidates a pathway for the simplification of selection traits, thereby enhancing the efficiency of breeding high-yielding ratoon rice varieties, with the ultimate aim of fostering the sustainable development of ratoon rice. [ABSTRACT FROM AUTHOR]

Published

2024

10. The Influence of Sowing Date on the Primary Yield Components of Maize.

Author

Domokos, Zsuzsa, Șimon, Alina, Chețan, Felicia, Ceclan, Ovidiu Adrian, Filip, Emanuela, Călugăr, Roxana Elena, Vâtcă, Sorin Daniel, and Duda, Marcel Matei

Subjects

*CATTLE breeding, *CATTLE breeds, *SOIL temperature, *GRAIN harvesting, *GRAIN yields

Abstract

The sowing date of maize significantly impacts its main yield elements. The experiment, conducted at the Research and Development Station for Cattle Breeding (R.D.S.C.B.) Târgu Mureș, Sângeorgiu de Mureș, România, from 2018 to 2021, involved nine maize hybrids from different maturity groups, sown on three dates: early sowing (ES) at 6 °C soil temperature, optimal sowing (OS) at 10 °C soil temperature, and late sowing (LS) two weeks after the optimal date. The experiment was placed in a poly-factorial experience of type: A × B × C × C − R: 3 × 9 × 4 − 3, organized according to the subdivided plots method. The study examined the influence of sowing date on grain yield (GY), thousand-kernel weight (TKW), test weight (TW), percentage of grains per cob (% G/C), and grain humidity at harvest (GHH). The results indicated that yield was not negatively impacted by early or late sowing compared to the optimal date, with differences of 52 kg ha−1 between ES and OS, 147 kg ha−1 between ES and LS, and 95 kg ha−1 between OS and LS. ES increased TW (723.4 kg hl−1) and % G/C (86.7%), but reduced GY (13,377 kg ha−1), TKW (335.3 g), and GHH (19.5%). Conversely, LS positively influenced GY (13,524 kg ha−1), TKW (356.7 g), and GHH (23.9%), but negatively affected TW (692.8 kg hl−1) and % G/C (84.9%). Yield data obtained by P9900 and Kapitolis hybrids suggest that they are suitable for early sowing. [ABSTRACT FROM AUTHOR]

Published

2024

11. Responses of Water and Fertilizer Utilization Efficiency and Yield of Cotton to Foliar Biostimulant under Irrigation with Magnetic–Electric-Activated Water.

Author

Sun, Yan, Zhou, Chen, Wang, Chunhong, Wang, Quanjiu, Liu, Yun, and Wang, Jian

Subjects

*SUSTAINABILITY, *WATER use, *IRRIGATION water, *WATER efficiency, *STRUCTURAL equation modeling

Abstract

The foliar application of biostimulants at specific concentrations under magnetic–electric water irrigation has a positive effect on water and fertilizer use efficiency and yield of cotton, which is crucial for green and sustainable agricultural development. As a new type of fertilizer, biostimulants have demonstrated remarkable effects in improving crop yield and quality by enhancing nutrient uptake, promoting plant growth, and increasing resilience to environmental stress. In this study, the effects of magnetic–electric-activated water irrigation and foliar biostimulant application on cotton growth and yield were investigated, with the aim of understanding the underlying mechanisms. The field experiment included various irrigation treatments (brackish water, fresh water, magnetic–electric brackish water, and magnetic–electric fresh water) and biostimulant concentrations (1600, 1200, 800, 400 times dilution, and no spraying). SEM analysis indicated that under magnetoelectric water irrigation, the foliar application of biostimulants enhances physiological growth of cotton, improving the water and nutrient uptake efficiency, and thereby increasing yield. Specifically, the effective boll number and single boll weight under magnetic–electric fresh water irrigation with an 800 times biostimulant concentration increased by 21.84–48.78% and 5.50–18.91%, respectively, compared to the no-spraying treatment. The seed cotton yield rose by 16.61–38.63%, water-use efficiency improved by 24.35%, the harvest index reached 0.33, and nitrogen absorption increased by 76.21%. Thus, integrating magnetic–electric water irrigation with foliar biostimulants offers a theoretical and technical foundation for advancing green, high-quality agriculture and sustainable production. [ABSTRACT FROM AUTHOR]

Published

2024

12. Modeling the Effects of Irrigation and Its Interaction with Silicon on Quinoa Seed Yield and Water Use Efficiency in Arid Regions.

Author

El-Tahan, Amira M., Emran, Mohamed, Safhi, Fatmah A., Wali, Asal M., Sobhy, Sherien E., and Ibrahim, Omar M.

Subjects

*WATER efficiency, *SPRINKLER irrigation, *IRRIGATION water, *ARID regions, *SOLUBLE glass, *QUINOA

Abstract

Despite quinoa (Chenopodium quinoa Willd.) gaining international popularity in the early 21st century for its nutritional benefits, there remains a critical need to optimize its cultivation practices in arid regions. Current research often overlooks the combined effects of supplemental irrigation and foliar treatments on quinoa's yield and water efficiency, particularly under challenging environmental conditions like those in Borg El-Arab, Egypt. Field studies were conducted in Borg El-Arab, Alexandria, Egypt, during the winter seasons of 2021/2022 and 2022/2023 to determine the influence of supplemental irrigation (rainfed, 2000, and 4000 m3/hectare, respectively) and foliar spraying of sodium silicate (control, 200, and 400 ppm) on yield, yield components, seed quality, and water usage efficiency in quinoa cv. Chibaya grown in arid lands. Three replications were used in a split-plot design. The main plots were designated for irrigation, while the subplots were designated for foliar spraying. The results indicate that applying irrigation at a rate of 4000 m3/hectare significantly increased leaf dry weight per plant by 23.5%, stem dry weight per plant by 18.7%, total dry weight per 25 plants by 21.4%, leaf area per plant by 19.2%, and straw yield by 26.8% compared to the control treatment. There were no significant differences between irrigation with the rate of 4000 m3 or 2000 m3/hectare on biological yield kg/hectare, N (%), P (mg/100 g), and protein (%). The utilization of sodium silicate had no significance on all studied features except for straw yield kg ha−1 at the rate of 200 or 400 ppm. The results regarding the RAPD1 primer revealed that the 2000+0 silicon treatment was the only treatment that resemble the control with no up- or downregulated fragment. Moreover, 20 upregulated fragments were observed in all treatments, while 19 DNA fragments were downregulated. Furthermore, the results obtained regarding the RAPD2 primer revealed that 53 fragments were upregulated and 19 downregulated. Additionally, the RAPD3 primer demonstrated that 40 DNA fragments were upregulated, whereas 18 downregulated DNA fragments were detected. It may be inferred that the application of irrigation at a rate of 4000 m3 ha−1 might serve as a supplemental irrigation method. Spraying sodium silicate at a 400 mg L−1 concentration could alleviate the dry climate on the Egyptian shore. [ABSTRACT FROM AUTHOR]

Published

2024

13. Light-use Efficiency and Fruit Dry Matter Content Affect Fresh Yield of Sweet Pepper.

Author

Masaru Homma, Yasuko Onodera, Masaaki Kanzaki, So Kaneko, and Dong-Hyuk Ahn

Subjects

*DRIED fruit, *FRUIT drying, *SELECTION (Plant breeding), *CAPSICUM annuum, *PEARSON correlation (Statistics), *SWEET peppers

Abstract

Improving the productivity of sweet pepper (Capsicum annuum) is essential to meeting the increasing global demand. This can be partially accomplished by investigating and determining high-yield traits, thereby enabling the selection or breeding of high-yield plants. Therefore, this study aimed to determine the high-yield traits of sweet pepper by analyzing its yield components. We analyzed yield components of commercially available cultivars (red and yellow) that were hydroponically grown in a greenhouse (e.g., total fruit fresh weight, fruit dry weight, fruit dry matter content, total dry matter production, and light-use efficiency) using Pearson's correlation coefficient (r). Our results showed the following: the total fruit fresh weight was positively and negatively correlated with the fruit dry weight (r = 0.83; P < 0.001) and fruit dry matter content (r = -0.70; P < 0.001), respectively; the fruit dry weight was positively correlated with the total dry matter production (r = 0.50; P < 0.01), and the total dry matter production was positively correlated with the light-use efficiency (r = 0.93; P < 0.001); and the cultivars with the high total fruit fresh weight were characterized by the notably low fruit dry matter content and high light-use efficiency (e.g., 'Gialte'). In conclusion, high-yielding sweet peppers are characterized by a low fruit dry matter content and high light-use efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

14. Application Methods of Zinc Sulphate Increased Safflower Seed Yield and Quality under End-Season Drought Stress.

Author

Ahmadi, Reza, Mahmoudi, Mohammad, Shekari, Farid, Afsahi, Kamran, Shekari, Kiana, Saba, Jalal, and Mastinu, Andrea

Subjects

ZINC sulfate, LEAF area index, SEED yield, SEED harvesting, CROP yields

Abstract

Zinc deficiency is one of the most widespread nutritional problems, affecting nearly one-third of the world population. In addition, it is known that zinc deficiency not only reduces crop yield but also its quality. The effect of different methods of zinc application on the growth, yield, and quality of safflower seeds under regular irrigation and interruption of irrigation from flowering to harvest (82 and 80 DAS in the first and second years, respectively) was evaluated. Zinc sulfate was applied in both soil and foliar methods. The zinc sulfate treatments include no zinc sulfate, soil application of 20, 40, and 60 kg ha−1 at the planting stage; spraying 2.5, 5, and 7.5 g L−1 in the rosette stage; and spraying 2.5, 5, and 7.5 g L−1 in the flowering stage. The end-season drought caused a decrease in the chlorophyll index, leaf area index, relative water content, plant height, yield components, biological yield, seed yield, harvest index, seed oil content, oil harvest index, and seed element content compared to regular irrigation. The decrease in yield occurred with a decrease in the capitol number and diameter, seed number per capitol, and 1000-seed weight. The severity of the damage of the end-season drought stress in the second year was higher than in the first year due to the higher temperatures and the decrease in the rainfall. In both years, the application of zinc sulfate in different ways had an increasing effect on the studied traits in both normal and stress conditions. The application of zinc sulfate reduced the negative effects of unfavorable environmental conditions and improved the yield and nitrogen, phosphorus, potassium, zinc, and iron element content in the seed. In both application methods of zinc sulfate, the increment in the zinc sulfate concentration decreased the seed phosphorus content. However, the phosphorous content was more than that of the treatment of non-zinc application. The application of zinc increased the biological, seed, and oil yield of the treated plants, but the seed and oil yield were more affected. This effect was shown in the seed and oil harvest index increment. Under regular irrigation, higher concentrations of zinc sulfate enhanced plant performance, but under stress conditions, medium and lower concentrations were more effective. The highest 1000-seed weight and potassium and zinc content were obtained by spraying zinc sulfate at 5 g L−1 in the flowering stage under normal irrigation conditions. A comparison of the two methods of applying zinc sulfate showed that foliar spraying was more effective than soil application in improving the seed yield. The soil application is more effective on biological yield than seed yield. [ABSTRACT FROM AUTHOR]

Published

2024

15. Biochar as sustainable input for nodulation, yield and quality of mung bean.

Author

Jalal, Fazal, Akhtar, Kashif, Saeed, Sulaiman, Said, Fazal, Khan, Zafar Hayat, Hussain, Sayed, Imtiaz, Muhammad, Khan, Muhammad Ali, Liu, Ke, Harrison, Matthew Tom, Saud, Shah, Hassan, Shah, El-Kahtany, Khaled, and Fahad, Shah

Subjects

BIOCHAR, MUNG bean, SOIL fertility, GRAIN yields, SATURATED fatty acids

Abstract

To reduce dependency on synthetic fertilizers in response to the escalating costs of fertilizers and environmental limitations, it is imperative to enhance crop productivity and soil fertility sustainably. This research was carried out at the Agricultural Research Farm of Abdul Wali Khan University in Mardan, Pakistan, with the objective of investigating the effects of biochar on the qualitative attributes of mung beans. The randomize complete block design (RCBD) was used for the experiment having four replication. The treatments comprised of four levels of biochar i.e. 0, 10, 20 and 30 t ha−1. Our results revealed that increasing biochar content caused an increase in yield components as well as attribute composition. The nodule density (17.8), pods plant−1 (27.3), grains pods−1 (11.4) and biological yield (6497 kg ha−1) produced best results under the application of 30 t ha−1 of biochar. Moreover, grain yield (1550 kg ha−1), grain nitrogen content (25.2 g kg−1) and straw nitrogen content (15.3 g kg−1) also resulted best under 30 t ha−1 biochar. While, 1000 grain weight (64 g) was recorded highest weight under 20 t ha−1. The quality attributes showed that the oil content (41.1%), as well as the saturated and unsaturated fatty acid contents (13.7%), were found to be the best under the application of 30 t ha−1. While, protein (23.37%) and linoleic acid (23.128%) content were the highest at 10 t ha−1of biochar. Moreover, the palmitic acid (6.1025%) and stearic acid (2.64%) content resulted higher under 20 t ha−1 of biochar. All the attributes showed positive response to either small level of biochar or a large level, but their response showed that biochar can be a factor that improves both yield and quality. The study therefore suggests that biochar should be applied to the soil to improve its fertility in regards of nutrient and increased organic matter. [ABSTRACT FROM AUTHOR]

Published

2024

16. Soybean yield is increased through complementary pollination by honey bees.

Author

Gazzoni, Décio Luiz and Paz Barateiro, João Vitor Ganem Rillo

Abstract

Brazil is the major global soybean producer with ca. 40 million hectares grown annually. In recent years, there has been a growing interest by beekeepers to migrate their hives close to soybean fields, to allow honey bees, Apis mellifera L. 1758 (Hymenoptera – Apidae) to forage in. To understand the effect of honey bee pollination on the soybean yield, one experiment was set up in Londrina, Brazil, to assess the yield of soybeans and its components, whose flowers were visited by honey bees, compared to those not visited. The experiment was repeated for three consecutive years, during the 2017 to 2020 soybean growing seasons. Treatments consisted of (1) open plots, with free access by honey bees; (2) caged plots with a honey bee hive inside; and (3) caged plots with no access by honey bees or any other pollinator. Monitoring visits by honey bees to soybean flowers indicated consistent visits in open and caged plots with a beehive, and larger numbers of honey bees were observed visiting soybeans at 11 am. The average yield for the three years revealed a significant increase when honey bees had access to flowers: 5,565 kg/ha for caged plots with honey bees and 5,201 for open plots, compared to caged plots without honey bee hives, which yielded 4,926 kg/ha. The yield increase was mainly associated with the occurrence of more 3 and 4-seeded pods, a larger number of seeds/pod and seed weight, as well as a smaller number of pods with zero or one seed observed in treatments with the presence of honey bees, compared to the caged plots without beehives. [ABSTRACT FROM AUTHOR]

Published

2024

17. Supplemental bee pollination effect on the productivity of soybean grown in a low yield potential condition.

Author

Gazzoni, Décio Luiz, Barateiro, João Vitor Ganem Rillo Paz, and da Rosa Santos, Pedro

Abstract

Brazil is the leading soybean producing country in the world, and soybean is the major crop of Brazilian agriculture, spread over 36 million hectares during the 2020/21 season, producing almost 125 million tons. The honey bee, Apis mellifera Linnaeus, 1758 (Hymenoptera: Apidae), and other bees are known as soybean flowers visitors, being potential pollinators of the crop, normally resulting in higher soybean yields. Over the last ten years, it has been observed an increasing interest of both beekeepers and soybean growers, to place honey bee colonies close to soybean fields, using the crop as a forage source. In the majority of the reports of soybeans growers, an increase of the soybean yield was observed when following this practice, while a small number claimed no yield modification. The purpose of the present work was to study the effect of visits of individuals of A. mellifera to soybean flowers and the consequent pollination on soybean productivity, when there is a constraint to the expression of the potential crop yield. The experiments were set up in Londrina, Brazil, during the 2016/17 and 2019/20 crop seasons, in areas with known sub superficial compaction layers, preventing soybean roots from deepening in the soil, therefore restricting the absorption of water and nutrients by the plants. Treatments consisted of 1) open plots, resembling a typical grower field with free access of bees; 2) a caged plot with an A. mellifera beehive inside, and 3) a caged plot with no bees or any other potential pollinating insect inside. Results indicated no yield differences due to the pollination of soybean flowers by the bees, compared to the treatment with the absence of bee visit. Among the yield components, only pods with 1 or 2 seeds were lower on caged plots with bees on the 1st experiment. No differences were detected for all others observed parameters on 1st and for all components on 2nd experiments. Observations of the honey bee behavior demonstrated that only 27.9% of the bee visits to soybean flowers resulted in nectar hoarding, with a time lapse of 4.52 seconds for a visit to a single flower. When a flower was only tested (72.1%), without nectar collection, the average time of a honey bee visit was 1.38 seconds. New studies should be performed to verify if other biotic or abiotic stresses that depress soybean yield also prevent the expression of the benefit of bees' pollination to soybean yield. [ABSTRACT FROM AUTHOR]

Published

2024

18. The productivity of selected soybean cultivars grown using various cultivation methods

Author

Jerzy Księżak and Jolanta Bojarszczuk

Subjects

cultivar, glycine max. (l.) merrill, tillage method, yield, yield components, River, lake, and water-supply engineering (General), TC401-506, Irrigation engineering. Reclamation of wasteland. Drainage, TC801-978

Abstract

Soybean is an important legume crop globally due to its rich protein, oil content, and functional components. The purpose of this study was to evaluate the yield of selected soybean cultivars depending on cultivation methods. The three-year field experiment, conducted from 2018 to 2020 at the Agricultural Experimental Station in Kępa-Puławy, Osiny farm (Institute of Soil Science and Plant Cultivation – State Research Institute in Puławy), investigated these variations. The first experimental factor was the soil cultivation method: A – conventional tillage, B – reduced tillage, and C – strip tillage. The second variable was soybean cultivar: ‘Aldana’ and ‘Merlin’. The soybean cultivars were selected for their differing maturity rates: ‘Aldana’ (000) is an early cultivar, while ‘Merlin’ (000++) semi-late cultivar. The field experiment utilised a split-plot design on Luvisol soil with sandy loam texture, belonging to a good rye complex, class IIIb–IVa, and was replicated four times. The study showed that the productivity (seed and protein yield) of the ‘Merlin’ cultivar grown in the central-eastern part of Poland was approximately 8% higher than that of the ‘Aldana’ cultivar. The cultivation method had a relatively minor influence on soybean yield, the content of selected nutrients, morphological features, and elements of the yield structure. The soil in strip-tillage method was more compact than the soil cultivated with a plough. After harvesting soybeans at a depth of 30, and 40 cm, the compactness of soil in strip-tillage or with reduced tillage was much lower than in spring, highlighting a positive effect of soybean cultivation on loosening the arable layer.

Published

2024

19. Foliar application of esculin and digitoxin improve the yield quality of salt-stressed flax by improving the antioxidant defense system

Author

Hemmat I. Khattab, Mervat Sh. Sadak, Mona G. Dawood, Fatma M. A. Elkady, and Nesma M. Helal

Subjects

Salinity, Flax, Digitoxin, Esculin, Defense mechanism, Yield components, Botany, QK1-989

Abstract

Abstract Background Secondary metabolites of several plants, including esculin and digitoxin, which are cardiac glycosides, were previously employed for their therapeutic effects. The current study aims to investigate the functions of the main Na+ /K+ transport inhibitor digitoxin and the antioxidant esculin for enhancing flax plant growth and production under salinity. Methodology Flax plants were irrigated with distilled water supplemented with 0.0 and 5000 mg/L salt solution starting from 15 DAS from sowing. Then exogenous treatment with digitoxin and esculin with 50 mg L− 1 and 100 mg L− 1 were used for this work. Results According to the results of this work, foliar spraying of esculin or digitoxin increased the salinity tolerance of flax plants.The foliar application of either esculin or digitoxin induced an elevation in the contents of photosynthetic pigments, osmolytes including soluble sugar and proline as well as the total phenols in salt-stressed flax plants. Moreover, esculin and digitoxin in particular counteract oxidative stress by increasing the activity of antioxidant enzymes including superoxide dismutase, catalase, peroxidase, phenylalanine ammonia-lyase, and tyrosine ammonia lyase, leading to a decrease in reactive oxygen species and lipid peroxidation levels and electrolyte leakage. The efficiency of esculin and digitoxin to sustain ion homeostasis by inhibiting Na+ absorption and increasing potassium, calcium, and phosphorus in flax plants may be the reason for their protective actions towards salinity.As a consequence, esculin and digitoxin increased yield quantity and quality as shown by increases in all investigated yield criteriaas shoot height, root length, their fresh and dry weights as well asseed yield/plant (g), and 1000 seeds weight, especially those that improved the desired oil properties. Conclusion In conclusion, this study concluded that digitoxin was more effective in inhibiting Na+ build-up and increasing flax salinity tolerance, particularly at the high investigated dose as compared to esculin. In this study, we reported the recent findings of exogenousapplication of either digitoxin or esculin glycosides which are new investigated salt alleviators never used before for improving the salt tolerance in flax plants.

Published

2024

20. Morphological changes in soybean cultivars subjected to apical dominance removal at phenological stages.

Author

Letícia Cassel, Júlia, Molinari Rother, Gabriele, Alcides Maldaner, Bruno, Dalcin Pimenta, Bruna, Luiz Ludwig, Rodrigo, and Batista dos Santos, Daniela

Subjects

*CROP yields, *SHOOT apexes, *GROWING season, *BLOCK designs, *LEGUMES

Abstract

This study evaluated the effect of removing apical dominance at phenological stages on the agronomic traits of soybean cultivars. The experiment was conducted in the 2020/2021 growing season inthe teaching-experimental area of the Federal Institute of Education, Science and Technology of Rio Grande do Sul, Campus Ibirubá, under a randomized block design in a split-plot arrangement, with three replications. The main plots were composed of five soybean cultivars (DM53i54 IPRO, Zeus IPRO, Lanza IPRO, DM5958 IPRO, and Delta IPRO), and the subplots consisted of the phenological stages of apical dominance removal (control, V2, V4, and V6). Morphological traits were evaluated at different stages. Differences were observed between cultivars, which followed their pre-defined morphologies. Apical dominance removal reduced aspects such as the number of nodes and legumes on the main stem and the first legumeinsertion height. Cultivars developed branching mechanismsas a compensation strategy, increasing the number of legumes on the branches by up to 130%. The removal of the shoot apex can modify morphological aspects in soybean plants,but their yield tends to be maintained. [ABSTRACT FROM AUTHOR]

Published

2025

21. Refining flowering date enhances sesame yield independently of day-length

Author

Idan Sabag, Shaked Pnini, Gota Morota, and Zvi Peleg

Subjects

Bulk segregation analysis, Genotype $$\times$$ × Environment $$\times$$ × Management Interactions, Photoperiod, Sowing date, Yield components, Botany, QK1-989

Abstract

Abstract Background The transition from vegetative to reproductive growth is a key factor in yield maximization. Sesame (Sesamum indicum), an indeterminate short-day oilseed crop, is rapidly being introduced into new cultivation areas. Thus, decoding its flowering mechanism is necessary to facilitate adaptation to environmental conditions. In the current study, we uncover the effect of day-length on flowering and yield components using F $$_2$$ 2 populations segregating for previously identified quantitative trait loci (Si_DTF QTL) confirming these traits. Results Generally, day-length affected all phenotypic traits, with short-day preceding days to flowering and reducing yield components. Interestingly, the average days to flowering required for yield maximization was 50 to 55 days, regardless of day-length. In addition, we found that Si_DTF QTL is more associated with seed-yield and yield components than with days to flowering. A bulk-segregation analysis was applied to identify additional QTL differing in allele frequencies between early and late flowering under both day-length conditions. Candidate genes mining within the identified major QTL intervals revealed two flowering-related genes with different expression levels between the parental lines, indicating their contribution to sesame flowering regulation. Conclusions Our findings demonstrate the essential role of flowering date on yield components and will serve as a basis for future sesame breeding.

Published

2024

22. Effects of algae extract application with different phosphorus sources on some yield components of beans.

Author

Nazzal, Mahmoud, Uzun, Fırat, Öztürk, Ömer Faruk, Harmankaya, Mustafa, Zengin, Mehmet, Gezgin, Sait, and Karaca, Ummahan Çetin

Subjects

*CLAY loam soils, *VEGETATION mapping, *SOIL microbiology, *SOIL fertility, *BIOLOGICAL products

Abstract

AbstractAlgae also positively affect these microorganisms and soil fertility. The composition of potential bioproducts from algae can vary depending on the type of algae cell. The inoculation of seeds/soils with phosphate-solubilizing microorganisms is therefore a promising method to improve food production without causing environmental pollution. For this purpose, increasing doses of algae extract (0, 0.2, 0.4, 0.8, and 1%) and different phosphorus (P) sources were added to clay loam soil at the 0 and 130 mg kg−1 doses. As a result, the effect of algal extract applied in increasing doses on some growth parameters of bean plants was found to be statistically significant for both P sources. The lowest yield components were also obtained in the control treatment (-algae extract; -P). As the applied algae extract doses increased, the yield components for mono-ammonium phosphate (MAP) and dicalcium phosphate (CaHPO4) applications increased. On the other hand, the values obtained from plants treated with MAP as a source of phosphorus were higher than those obtained with CaHPO4. Increasing the level of algae extract across MAP-treated plants resulted in higher values in the plant’s upper parts but lower values in the root. Compared to other treatments, plants treated with CaHPO4 showed higher values when algaeextract was applied at concentrations of 0.8% and 1%. [ABSTRACT FROM AUTHOR]

Published

2024

23. Nitrogen fertilizer efficacy on common bean productivity in soil infested by <italic>Meloidogyne javanica</italic>.

Author

Moreira, Adônis, Loreto, Rafaela Bueno, Pedroso Dias, Júlia, Delfim, Jorge, Moraes, Larissa Alexandra Cardoso, Dameto, Larissa Sartori, and Oliveira, João Gustavo Alves de

Subjects

*NITROGEN fertilizers, *SOIL productivity, *ROOT-knot nematodes, *SODIUM nitrate, *AMMONIUM nitrate, *COMMON bean

Abstract

AbstractDiseases affecting the common bean (Phaseolus vulgaris L.) have resulted in significant productivity losses, with root-knot nematodes, such as Meloidogyne javanica, being a primary factor, particularly in sandy soils. This study aimed to identify the most effective source of nitrogen (N) for the common bean crop in an area infested with M. javanica. A completely randomized 4 × 6 factorial design was employed, involving four genotypes (IDR Bem-te-vi, IDR Sabiá, IDR Tuiuiú, and IDR Curió) most cultivated in southern Brazil, and five N sources (urea, sodium nitrate, ammonium nitrate, ammonium sulfate, and inoculant), plus control without N fertilization, with four replicates. All four common bean genotypes were susceptible to the nematode, exhibiting a reproduction factor (RF) exceeding 1.0. A direct correlation was observed between root volume and grain yield (GY). The IDR Tuiuiú was the most sensitive to the nematode, producing 36.2% less than the IDR Bem-te-vi. Among the N sources, regardless of genotype, urea and ammonium nitrate were the most effective in enhancing common bean productivity in soil infested with M. javanica, irrespective of the genotype. [ABSTRACT FROM AUTHOR]

Published

2024

24. Effect of zinc in absence and presence of limestone on soybean grown in three different soil types.

Author

Moreira, Adônis, Moraes, Larissa A. C., Bassoli, Paulo G., Moreira, Pedro A. M., and Nogueira, Thiago A. R.

Subjects

*SOYBEAN, *DEFICIENCY diseases, *ACID soils, *SOIL classification, *AGRICULTURAL productivity

Abstract

AbstractLiming is essential for enhancing economic viability and increasing crop production in acidic soil in tropical and subtropical regions. However, continuous limestone application has been associated with cationic micronutrient deficiency, including zinc (Zn). In an experiment under greenhouse conditions using three soils of different textural classes (Typic Alfisol, Typic Oxisol, and Typic Entisol), we evaluated the growth of soybean after fertilization with limestone and Zn. We applied dolomitic limestone at two rates (equivalent to 0 and 5.0 Mg ha−1) and Zn at four rates (0, 5, 10, and 20 mg kg−1), each with four replicates. These three soil types exhibited distinct nutrient availability. Liming significantly altered soil chemical attributes, particularly causing considerable reduction in Zn availability in Typic Alfisol. Furthermore, liming led to a reduction in Zn concentration in soybean leaves and grains in all the three soil types. Grain yield (GY) increased in the presence of liming, and yield was further enhanced with increasing Zn concentrations. Positive effect was also seen on photosynthetic rate (A), stomatal conductance (gs), and leaf N, Ca, and Zn concentrations, except on P concentration. Even with adequate nutrient concentrations and limestone application, sandy soils had a lower GY. [ABSTRACT FROM AUTHOR]

Published

2024

25. Adaptability and Yield Performance of Introduced Tomato Lines under Greenhouse and Open Field Conditions in Honduras.

Author

Flores, Francely, Ramirez-Guerrero, Hugo O., Maxwell, Lourena, Eybishitz, Assaf, Barchenger, Derek W., and Avellaneda, M. Carolina

Subjects

*GERMPLASM, *INSECT diseases, *FRUIT quality, *INSECT pests, *CULTIVARS, *TOMATOES

Abstract

In Honduras, tomato (Solanum lycopersicum L.) is an economically important crop for farmers because of its high domestic consumption, year-round production, and high export potential. However, tomato production faces challenges such as diseases and pests and is confounded by climate change, all of which reduce productivity and quality. Evaluating the adaptation of tomato cultivars is critical to ensuring the long-term sustainability and resilience of the horticulture sector in the region. The objective of this study was to identify tomato lines with adaptability, high yield, pest, and disease resistance under greenhouse and open field production conditions for the Honduran market. Ten tomato lines and two commercial hybrids were evaluated between Feb and Jul 2022 in San Antonio de Oriente, Francisco Morazan, Honduras. Desirable traits related to vegetative growth, productivity, fruit quality, and resistance to insect pests and diseases were measured. Seven lines were highly adapted and had high vegetative growth. The tomato lines were not significantly different in terms of tomato yellow leaf curl disease and late blight disease index; however, the fruit borer susceptibility varied, with AVTO1908 being the most susceptible. The highest performing line was AVTO1903, which had the greatest total marketable yield in both the open field (101.3 t·ha-1) and greenhouse (62.1 t·ha-1). Additionally, AVTO1903 and AVTO1915 had good quality traits (roundness index, total soluble solids, and dry matter), thus demonstrating their potential for sustainable and high-yielding cultivation in Honduras. The growth and productivity of the tomato lines were highly influenced by the environment. This work highlights the advantages of introducing exotic cultivars to combat the effects of climate change and ensure sustained production; however, further research is needed to ensure that local farmer and consumer demands are met. [ABSTRACT FROM AUTHOR]

Published

2024

26. Refining flowering date enhances sesame yield independently of day-length.

Author

Sabag, Idan, Pnini, Shaked, Morota, Gota, and Peleg, Zvi

Subjects

*SESAME, *LOCUS (Genetics), *GENE frequency

Abstract

Background: The transition from vegetative to reproductive growth is a key factor in yield maximization. Sesame (Sesamum indicum), an indeterminate short-day oilseed crop, is rapidly being introduced into new cultivation areas. Thus, decoding its flowering mechanism is necessary to facilitate adaptation to environmental conditions. In the current study, we uncover the effect of day-length on flowering and yield components using F 2 populations segregating for previously identified quantitative trait loci (Si_DTF QTL) confirming these traits. Results: Generally, day-length affected all phenotypic traits, with short-day preceding days to flowering and reducing yield components. Interestingly, the average days to flowering required for yield maximization was 50 to 55 days, regardless of day-length. In addition, we found that Si_DTF QTL is more associated with seed-yield and yield components than with days to flowering. A bulk-segregation analysis was applied to identify additional QTL differing in allele frequencies between early and late flowering under both day-length conditions. Candidate genes mining within the identified major QTL intervals revealed two flowering-related genes with different expression levels between the parental lines, indicating their contribution to sesame flowering regulation. Conclusions: Our findings demonstrate the essential role of flowering date on yield components and will serve as a basis for future sesame breeding. [ABSTRACT FROM AUTHOR]

Published

2024

27. The decrease in panicle number is the main reason for the yield reduction of japonica rice caused by 1,2,4-trichlorobenzene stress.

Author

Feiyu Yan, Guoliang Zhang, Le Liu, Fang Wang, Hongliang Zhao, Zhiwei Huang, and Yuan Niu

Subjects

PERSISTENT pollutants, YIELD stress, SOIL testing, CROP development, PLANT development

Abstract

Persistent organic pollutants seriously affect the growth and development of crops. 1,2,4-Trichlorobenzene (TCB), as one of the most widely used chlorobenzenes, can affect the yield of japonica rice. However, existing research on the effect of TCB on japonica rice yield is not in-depth, and a basic understanding of commonality has not yet been formed. In this study, 28 conventional japonica rice varieties were selected to investigate the effects of TCB stress on their yield, yield composition, and TCB accumulation. This study also evaluated the efficiency of conventional tolerance indices in evaluating the TCB stress tolerance of japonica rice. The results showed that TCB caused sustained inhibition of the growth of japonica rice, which was considerably manifested in plant height, root length, soil plant analysis development (SPAD), and dry weight at different growth stages. Under TCB stress, TCB accumulation in various tissues of japonica rice increased sharply. TCB stress reduces the yield of japonica rice by reducing the number of panicles per hill, the number of spikelets per panicle, the grain filling percentage, and the grain weight. Overall, the results of this study indicate that TCB stress can cause a decrease in the yield of japonica rice, and the decrease in panicle number is the main reason. The conventional tolerance index can effectively evaluate the tolerance of japonica rice to TCB. The results of this study are substantial for the breeding and cultivation of japonica rice. [ABSTRACT FROM AUTHOR]

Published

2024

28. Drip Fertigation Increases Maize Grain Yield by Affecting Phenology, Grain Filling Process, Biomass Accumulation and Translocation: A 4-Year Field Trial.

Author

Du, Ruiqi, Li, Zhijun, Xiang, Youzhen, Sun, Tao, Liu, Xiaochi, Shi, Hongzhao, Li, Wangyang, Huang, Xiangyang, Tang, Zijun, Lu, Junsheng, Chen, Junying, and Zhang, Fucang

Subjects

MICROIRRIGATION, LEAF area index, PLANT biomass, PHOTOSYNTHETIC rates, FERTIGATION

Abstract

Drip fertigation (DF) is a widely used technology to increase grain yield with water and fertilizer conservation. However, the mechanism of high grain yield (GY) under DF is still unclear. Here, a four-year field experiment assessed the impacts of four treatments (i.e., conventional irrigation and nitrogen application, CK; drip irrigation with conventional nitrogen fertilization, DI; split-nitrogen fertigation with conventional irrigation, SF; and drip fertigation, DF) on maize phenology, leaf photosynthetic rates, grain filling processes, plant biomass, and GY. The results showed that DF significantly increased maize GY by affecting phenology, grain filling traits, aboveground biomass (BIO) accumulation, and translocation. Specifically, DF significantly increased leaf chlorophyll content, which enhanced leaf photosynthetic rates, and together with an increase of leaf area index, promoted BIO accumulation. As a result, the BIO at the silking stage of DF increased by 29.5%, transported biomass increased by 109.2% (1.2 t ha−1), and the accumulation of BIO after silking increased by 23.1% (1.7 t ha−1) compared with CK. Meanwhile, DF prolonged grain filling days, significantly increased the grain weight of 100 kernels, and promoted GY increase. Compared with CK, the four-year averaged GY and BIO increased by 34.3% and 26.8% under DF; a 29.7%, 46.1%, and 24.2% GY increase and a 30.7%, 39.5%, and 29.9% BIO increase were contributed by irrigation, nitrogen, and coupling effects of irrigation and nitrogen, respectively. These results reveal the high yield mechanism of drip-fertigated maize, and are of important significance for promoting the application of drip fertigation. [ABSTRACT FROM AUTHOR]

Published

2024

29. Performance of organic manures alone or combined with chemical fertilizers in increasing growth, yield, and nutritional quality of potatoes in the Eastern part of Türkiye.

Author

Kurt, Gunes, Ozturk, Erdogan, Sefaoglu, Fırat, Gul, Volkan, Toktay, Zehra, and Mosber, Goltay

Abstract

AbstractThis study aimed to determine the effects of different types of fertilizers (organic and inorganic fertilizers) on plant growth, yield, and yield components of potatoes grown in the high-altitude plateau of eastern Türkiye in 2017 and 2019. In the experiment, single or combined doses of nitrogen (N; as ammonium sulfate) and phosphorus (P; as triple super phosphate) as inorganic fertilizers and leonardite (L) and vermicompost (V) fertilizers as organic fertilizers were used. In both years, different fertilizer treatments significantly affected plant growth, yield, and yield components. Tuber yield per hill (941.0 g), marketable tuber yield (32.71 t ha−1), total tuber yield (37.84 t ha−1), specific gravity (1. 077 g cm−3), chip productivity (35.9%), starch (13.03%) and protein (11.0%) ratios increased when N fertilizer was used in combination with vermicompost or leonardite. N fertilizer combined with V or L fertilizer increased tuber yield under harsh continental climates, short growth periods, and high altitudes. [ABSTRACT FROM AUTHOR]

Published

2024

30. Dissecting the effect of heat stress on durum wheat under field conditions.

Author

Groli, Eder Licieri, Frascaroli, Elisabetta, Maccaferri, Marco, Ammar, Karim, and Tuberosa, Roberto

Subjects

DURUM wheat, NORMALIZED difference vegetation index, STRUCTURAL equation modeling, GRAIN yields

Abstract

Introduction: Heat stress negatively affects wheat production in several ways, mainly by reducing growth rate, photosynthetic capacity and reducing spike fertility. Modeling stress response means analyzing simultaneous relationships among traits affecting the whole plant response and determinants of grain yield. The aim of this study was to dissect the diverse impacts of heat stress on key yield traits and to identify the most promising sources of alleles for heat tolerance. Methods: We evaluated a diverse durum wheat panel of 183 cultivars and breeding lines from worldwide, for their response to long-term heat stress under field conditions (HS) with respect to non stress conditions (NS), considering phenological traits, grain yield (GY) and its components as a function of the timing of heat stress and climatic covariates. We investigated the relationships among plant and environmental variables by means of a structural equation model (SEM) and Genetic SEM (GSEM). Results: Over two years of experiments at CENEB, CIMMYT, the effects of HS were particularly pronounced for the normalized difference vegetation index, NDVI (-51.3%), kernel weight per spike, KWS (-40.5%), grain filling period, GFP (-38.7%), and GY (-56.6%). Average temperatures around anthesis were negatively correlated with GY, thousand kernel weight TKW and test weight TWT, but also with spike density, a trait determined before heading/anthesis. Under HS, the correlation between the three major determinants of GY, i.e., fertile spike density, spike fertility and kernel size, were of noticeable magnitude. NDVI measured at medium milk-soft dough stage under HS was correlated with both spike fertility and grain weight while under NS it was less predictive of grain weight but still highly correlated with spike fertility. GSEM modeling suggested that the causal model of performance under HS directly involves genetic effects on GY, NDVI, KWS and HD. Discussion: We identified consistently suitable sources of genetic resistance to heat stress to be used in different durum wheat pre-breeding programs. Among those, Desert Durums and CIMMYT'80 germplasm showed the highest degree of adaptation and capacity to yield under high temperatures and can be considered as a valuable source of alleles for adaptation to breed new HS resilient cultivars. [ABSTRACT FROM AUTHOR]

Published

2024

31. A Deeper Insight into the Yield Formation of Winter and Spring Barley in Relation to Weather and Climate Variability.

Author

Yiğit, Ali and Chmielewski, Frank-M.

Subjects

*SPRING, *WEATHER, *BARLEY, *CLIMATE change, *GRAIN yields

Abstract

This study used descriptive statistical methods to investigate how the yield development of winter and spring barley was affected by annual weather variability within the vegetative, ear formation, anthesis, and grain-filling phases. Meteorological, phenological, and yield data from the agrometeorological field experiment in Berlin-Dahlem (Germany) between 2009 and 2022 were used. The results show that the lower yield variability in winter barley (cv = 18.7%) compared to spring barley (cv = 32.6%) is related to an earlier start and longer duration of relevant phenological phases, so yield formation is slower under generally cooler weather conditions. The significantly higher yield variability in spring barley was mainly the result of adverse weather conditions during ear formation and anthesis. In both phases, high temperatures led to significant yield losses, as has often been the case in recent years. In addition, a pronounced negative climatic water balance during anthesis was also a contributing factor. These meteorological parameters explained 82% of the yield variability in spring barley. New strategies for spring barley production are needed to avoid further yield losses in the future. Rising temperatures due to climate change could probably allow an earlier sowing date so that ear formation and anthesis take place in a generally cooler and wetter period, as shown for 2014. [ABSTRACT FROM AUTHOR]

Published

2024

32. Performances of Maize Grown as Intercrop with Cowpea under Different Planting Patterns.

Author

ADEBAYO, A. K., ANJORIN, F. B., OLANIPEKUN, S. O., ALUKO, O. A., and ADEWUMI, A. D.

Abstract

A field experiment conducted in two different agro ecologies, Ibadan and Ilora in southwest Nigeria, explored the benefits of intercropping and the impact of varying plant populations on crop yield. The study focused on three different maize varieties (Quality protein maize, high protein maize, and the farmer's variety SUWAN-1-SR-Y) intercropped with Cowpea (Ife brown) under different cropping patterns (0.9x0.4 m and 1.0x0.5 m). The experiment was carried out in split design using randomized complete block design (RCBD) (r=4). The results of the experiment demonstrated that the performance of maize when intercropped with cowpea at wider spacing (1.0x0.5 m) outperformed maize planted at closer spacing (0.9x0.4 m) in both locations. This finding suggests that the wider spacing between crops had a positive impact on crop growth and yield in both agro ecologies. The study revealed that the farmer's variety, SUWAN-1-SR-Y, exhibited superior growth and grain yield compared to the other improved maize varieties when grown both as intercrops and as sole crops. This finding highlights the resilience and adaptability of the farmer's variety, which performed well in different cropping systems. The research noted variations in maize yield between the two locations, with Ibadan recording higher yields compared to Ilora. This difference in yield could be attributed to variations in climatic conditions between the two regions which significantly influence maize performance. The results obtained indicate that intercropping maize with cowpea at wider plant spacing (1.0x 0.5m) enhanced maize performance compared to closer spacing (0.9x 0.4m). [ABSTRACT FROM AUTHOR]

Published

2024

33. The productivity of selected soybean cultivars grown using various cultivation methods.

Author

Księżak, Jerzy and Bojarszczuk, Jolanta

Abstract

Soybean is an important legume crop globally due to its rich protein, oil content, and functional components. The purpose of this study was to evaluate the yield of selected soybean cultivars depending on cultivation methods. The three-year field experiment, conducted from 2018 to 2020 at the Agricultural Experimental Station in Kępa-Puławy, Osiny farm (Institute of Soil Science and Plant Cultivation - State Research Institute in Puławy), investigated these variations. The first experimental factor was the soil cultivation method: A - conventional tillage, B - reduced tillage, and C - strip tillage. The second variable was soybean cultivar: 'Aldana' and 'Merlin'. The soybean cultivars were selected for their differing maturity rates: 'Aldana' (000) is an early cultivar, while 'Merlin' (000++) semi-late cultivar. The field experiment utilised a split-plot design on Luvisol soil with sandy loam texture, belonging to a good rye complex, class IIIb-IVa, and was replicated four times. The study showed that the productivity (seed and protein yield) of the 'Merlin' cultivar grown in the central-eastern part of Poland was approximately 8% higher than that of the 'Aldana' cultivar. The cultivation method had a relatively minor influence on soybean yield, the content of selected nutrients, morphological features, and elements of the yield structure. The soil in strip-tillage method was more compact than the soil cultivated with a plough. After harvesting soybeans at a depth of 30, and 40 cm, the compactness of soil in strip-tillage or with reduced tillage was much lower than in spring, highlighting a positive effect of soybean cultivation on loosening the arable layer. [ABSTRACT FROM AUTHOR]

Published

2024

34. The Results of a Pre-study to Determine The Effects of Zinc and Iron Foliar Fertilizer on Canola (Brassica napus L.).

Author

ÇELİK POLAT, Nezengül, ÇINAR, Volkan Mehmet, and ÜNAY, Aydın

Subjects

*CLIMATIC zones, *RAPESEED, *MEDITERRANEAN climate, *OILSEED plants, *SEED yield, *IRON fertilizers

Abstract

Increasing canola yield, a winter oil crop, is important for its cultivation in the product pattern of the Mediterranean climate zone. Therefore, a study was planned to determine the impact of foliar application zinc (Zn), iron (Fe) and Zn + Fe combination on the yield and quality of canola. The experiment was arranged in a Randomized Complete Block Design with four replications. Zinc (3.0% v/v), iron (7.5% w/w), and their combination were foliar sprayed at rosette and flowering stages. The highest number of siliques per plant, number of seeds per silique, seed index, and seed yield were recorded in the Fe application. Zn + Fe combination significantly increased the oil and protein content, whereas Zn application exhibited higher oil and protein yield performance. It was concluded that using iron and zinc separately regarding yield and quality is economically beneficial. [ABSTRACT FROM AUTHOR]

Published

2024

35. The Impact of Different Phosphorus Fertilizers Varieties on Yield under Wheat–Maize Rotation Conditions.

Author

Liang, Chutao, Liu, Xiaoqi, Lv, Jialong, Zhao, Funian, and Yu, Qiang

Subjects

*PHOSPHATE fertilizers, *NITROGEN fertilizers, *FERTILIZER application, *CROPS, *CROP rotation, *WINTER wheat, *CORN, *ROTATIONAL motion

Abstract

The global phosphate (P) rock shortage has become a significant challenge. Furthermore, the misalignment between crops, soil, and P usage exacerbates P rock wastage in agriculture. The distinctions among various types of phosphorus fertilizers influence the phosphorus cycle, which subsequently impacts biomass, the number of grains per ear, the weight of a thousand grains, and, ultimately, the overall yield. In a four-year field experiment conducted from 2017 to 2021, we assessed the impact of various P fertilizer types on crop yield in a continuous wheat–maize rotation system. Prior to planting the crops, P fertilizers were applied as base fertilizers at a rate of 115 kg P2O5 ha−1 during the wheat season and 90 kg P2O5 ha−1 during the maize season. Additionally, nitrogen (N) was applied at rates of 120 kg ha−1 for wheat and 180 kg ha−1 for maize. The P fertilizers used included ammonium dihydrogen phosphate, ammonium polyphosphate, calcium–magnesia phosphate, ammonium phosphate, and calcium superphosphate. Urea was used as the N fertilizer with a split application—60% at planting and 40% at the jointing stage for wheat or the V12 (twelve leaf collar) stage for maize. The results showed that different P fertilizers increased the average yield of wheat and maize by 21.2–38.0% and 9.9–16.3%, respectively. It was found that ammonium polyphosphate, calcium superphosphate, and monoammonium phosphate were more suitable for application in a summer maize–winter wheat rotation system on loess soil. [ABSTRACT FROM AUTHOR]

Published

2024

36. Water Use Efficiency and Winter Wheat Grain Yield of Different Cultivars Under Different Irrigation Strategies in a Semi-arid Region.

Author

Pachang, Fariborz, Talebnejad, Rezvan, Sepaskhah, Ali Reza, and Mehrabi, Fatemeh

Subjects

*WINTER wheat, *WATER efficiency, *WINTER grain, *ARID regions, *GRAIN yields, *IRRIGATION

Abstract

This study evaluates the interaction effect of different irrigation strategies and winter wheat cultivars on yield and water use efficiency in a semi-arid region. The aim is to identify effective water-saving strategies for sustainable winter wheat production considering the variability in annual rainfall patterns over two years in Shiraz, Iran. The irrigation strategies included full irrigation (FI), deficit irrigation at 0.75FI, 0.5FI, and rainfed with supplemental irrigation at sowing. Two winter wheat cultivars, Varedati and Sirvan, were tested. The results showed no significant differences in grain yield, dry matter, and harvest index between the two cultivars. However, deficit irrigation (0.75FI and 0.5FI) and rainfed conditions led to a significant reduction in winter wheat yield and dry matter. The first year, with lower rainfall, resulted in a 16% decrease in grain yield and dry matter compared to the second year with higher rainfall. The rainfed treatment, supplemented with irrigation at sowing, yielded about 44% of the full irrigation regime in both years. Deficit irrigation negatively impacted yield components such as 1000-grain weight and the number of spikes per unit area. The Varedati cultivar had lower 1000-grain weight and spikes per unit area but a higher number of grains per spike compared to the Sirvan cultivar. In comparison to FI, rainfed treatments decreased RLD by 45% in both years. However, Sirvan cultivar exhibited a higher level of resistance in terms of root growth under water stress conditions.The study highlights the importance of selecting suitable irrigation strategies based on annual rainfall patterns to optimize winter wheat yield and water use efficiency in semi-arid regions. [ABSTRACT FROM AUTHOR]

Published

2024

37. Stability analysis to identify improved lines of cluster bean (Cyamopsis tetragonoloba L. Taub.).

Author

Mishra, Smaranika, A.V.V., Koundinya, T.S., Aghora, and M., Senthil Kumar

Subjects

*GUAR, *GREEN bean, *SUMMER, *SUM of squares, *BLOCK designs

Abstract

To select a stable and best-performing cluster bean line over seasons, an experiment was carried out using five shortlisted advanced breeding lines of vegetable cluster bean in randomized block design with four replications in Kharif and Summer seasons of 2019–20 and 2020–21 at ICAR-Indian Institute of Horticultural Research, Bengaluru. Additive mean effect and multiplicative interaction analysis of variation indicated a significant genotype and environment (G × E) interaction for all the traits. A high environment effect of 33.73% of the total sum of squares was observed for the trait pods per cluster followed by yield per hectare, single pod weight, pods per plant and clusters per plant. The first two interactive principal component axes (IPCA) cumulatively contributed 87.9, 97.3, 94.6, 98.6 and 85.6% variations for yield per hectare, number of clusters per plant, pods per plant, pods per cluster and single pod weight, respectively, leaving a small but significant amount of variation in the third IPCA. A mean versus weighted average of absolute score (WAAS) biplot indicated that genotype IIHRCB 26-2-1 is stable and best for the trait clusters per plant (>20 clusters/plant) while, IIHRCB 22-1-1 is superior and stable (WAAS mean nearly 0.00) for pods per cluster with >5 pods/cluster, pods per plant with >90 pods/plant, single pod weight with >3.0 g and yield per hectare around 24 t/ha. For all the environments, genotype IIHRCB 22-1-1 was found 'all-time winner' for yield per hectare and single pod weight. Based on multitrait stability index, IIHRCB 22-1-1 was found the best performer and the most stable genotype. [ABSTRACT FROM AUTHOR]

Published

2024

38. Compensation mechanism of increased maize density on yield with water and nitrogen reduction supply in oasis irrigation areas.

Author

WANG Fei-Er, GUO Yao, LI Pan, WEI Jin-Gui, FAN Zhi-Long, HU Fa-Long, FAN Hong, HE Wei, YIN Wen, and CHEN Gui-Ping

Abstract

Aiming at the production and ecological problems of the lack of water resources and excessive chemical nitrogen fertilizer input in arid oasis irrigation areas, the effect of increased planting density to compensate for the loss of maize yield caused by reducing water and nitrogen inputs was analyzed under reduced water and nitrogen inputs, which could provide theoretical and technical support for the efficient production of maize with water and nitrogen reduction. Based on a split-plot field experiment conducted in 2016, the main plot was divided into two irrigation quotas: reduced irrigation by 20% (W1, 3240 m³ hm-2) and traditional irrigation (W2, 4050 m³ hm-2), and the split-plot was divided into two nitrogen application rates: reduced nitrogen (N1, 270 kg hm-2) by 25% and traditional nitrogen (N2, 360 kg hm-2) were applied, and the sub-split plot was divided into three maize densities: traditional planting density (D1, 75,000 hm-2 plants), increased density by 30% (D2, 97, 500 hm-2 plants) and increased density by 60% (D3, 120,000 hm-2 plants). We measured grain yield and biological yield of maize in 2020 and 2021, analyzed the characteristics of dry matter accumulation, distribution, and transport characteristics, quantified the yield composition factors, and clarified the compensation effect and mechanism of densification on maize yield with water and nitrogen reduction. The study showed that water and nitrogen reduction inputs decreased the grain yield and biological yield in maize, but the increased density by 30% can compensate for the loss of yield due to reducing water and nitrogen inputs and improve maize yield under reduced water while maintaining traditional nitrogen. The grain yield and biological yield of W1N1D1 (reduced water and nitrogen and traditional density) was 9.1%-15.0% and 10.0%-11.0% lower than W2N2D1 (comparison: traditional irrigation, traditional nitrogen application, and traditional density), but there was no significant difference in W1N1D2 (reduced irrigation, reduced nitrogen, and increased density by 30%) compared with W2N2D1. Compared with W2N2D1, W1N2D2 (reduced irrigation, traditional nitrogen, and increased density by 30%) increased grain yield and biological yield by 12.9%--15.4% and 6.4%-12.0%, respectively. Increased density by 30% compensated for the negative effect of water and nitrogen reduction mainly attributed to improving spike number of W1N1D2, which further increased dry matter accumulation from the early-filling stage to the maturity stage in maize, population growth rate and dry matter remobilization at pre-anthesis from seeding stage to the flare opening stage. Increasing spike number of W1N2D2 improved dry matter accumulation and population growth rate, promoted dry matter distribution in the ear, and increased dry matter remobilization. In addition, the dry matter remobilization efficiency and contribution of dry matter remobilization to grain at pre-anthesis were the main reasons for increasing maize yield with the increased density by 30% under water and nitrogen reduction inputs. Therefore, increasing density by 30% was a feasible measure for simultaneous reduction of water and nitrogen in oasis irrigation area to stabilize and increase maize yield. [ABSTRACT FROM AUTHOR]

Published

2024

39. ارزیابی پاسخ ژنوتیپ های سویا به تنش کم آبی از نظر ویژگی های زراعی و عملکرد دانه

Author

جهانفر دانشیان, فرناز شریعتی, and نادیا صفوی فرد

Abstract

Objective: Selection of soybean cultivars that have a higher grain yield under water deficit conditions, reduces the damage to soybean producers. Methods: The response of soybean genotypes to water deficit stress was investigated in terms of agricultural characteristics and grain yield in Karaj (Iran), during two years. The experiment was carried out as a split plot based on randomized complete block design in three replications, with three irrigation levels (control, mild stress, and severe stress) based on 50, 100, and 150 mm evaporation from a Class A evaporation pan as the main plot and 10 soybean genotypes as the sub-plot. Results: The results showed that mild and severe stress caused the node number and inter-node to decrease in comparison with control irrigation. Under control irrigation, the highest grain yield (2585 kg/ha) was obtained from the earlymaturing Saba cultivar, with the highest seed number per unit area. The earlymaturing genotypes had the highest grain yield under control irrigation, and their grain yield decreased significantly with increasing stress intensity. The grain yield of the Saba cultivar reduced under mild and severe stress by 32 and 59% compared to control irrigation, respectively. Under stress conditions, the latematuring genotypes had the highest grain yield and water deficit stress caused a slight decrease in their grain yield. Under mild and severe stress, the late-maturing Williams×A3935 line had the highest grain yield and protein yield, respectively. Conclusion: Under control irrigation, the Saba cultivar, and under stress conditions (mild and severe) the Williams×A3935 line is recommended in Karaj and similar climates (moderately cold region). [ABSTRACT FROM AUTHOR]

Published

2024

40. تحت تأثیر)Oryza sativa L.(بهبود رشد، عملکرد و جذب عناصر پتاسیم و روی در برنج باکتری های افزاینده رشد در سطوح مطلوب و کاهش یافته کودهای شیمیایی

Author

اسماعیل بخشنده, همت اله پیردشتی, فضه قلی تبار فرامرزی, طیبه ژولیده رودپشتی, and فائزه زعفریان

Abstract

Objective: This study was performed to evaluate the effect of Rahnella aquatilis and Burkholderia cepacia bacteria on yield, yield components, and uptake of potassium and zinc elements in rice (Oryza sativa L.). Methods: The experiment was conducted as a split-plot in a randomized complete block design with three replications in 2022. Treatments included two levels of chemical fertilizer (100 and 75% of chemical fertilizer consumption based on the soil test results as optimal and reduced fertilizer levels, respectively) and four inoculation treatments (separate inoculation of R. aquatilis, B. cepacia, a coinoculation (R.aquatilis+B.cepacia) and control (non-inoculation)). Results: The results indicated that there was no significant difference between the optimal and reduced fertilizer levels in all the studied traits. The separate inoculation of R. aquatilis, B.cepacia and their co-inoculation increased the panicle length (from 5.88 to 11.3%), the number of total tillers in hill-1 (from 19.4 to 29.1%), the total number of grains in panicle-1 (from 22.8 to 46.5%), paddy yield (from 22.8 to 44.3%), biological yield (from 20.3 to 33.6%), 1000-seed weight (from 2.4 to 8.8%), potassium uptake in grain (from 6.0 to 41.4%) and in above-ground biomass (from 38.4 to 65.4%), zinc uptake in grain (from 6.29 to 40.9%) and in above-ground biomass (29.4 to 54.6%) as compared with the control (non-inoculation). Conclusion: The application of plant growth-promoting rhizobacteria in combination (as the best inoculation treatment) reduced chemical fertilizers consumption without a significant reduction in the paddy yield, indicating the importance of these rhizobacteria for achieving sustainable agriculture goals. [ABSTRACT FROM AUTHOR]

Published

2024

41. Effects of Deep Vertical Rotary Tillage on Soil Water Use and Yield Formation of Forage Maize on Semiarid Land.

Author

Fang, Yanjie, Tan, Weijun, Hou, Huizhi, Wang, Hongli, Yin, Jiade, Zhang, Guoping, Lei, Kangning, Dong, Bo, and Qin, Anzhen

Subjects

CROP yields, SOIL moisture, WATER use, TILLAGE, SOIL ripping, WATER efficiency, NO-tillage

Abstract

Forage maize is one of the most important feed crops for livestock production, and is mainly grown in northwest China. However, their growth is often stressed by limited soil water availability due to the arid climate. To provide more soil moisture, a high-efficiency tillage technique was required to make crops effectively use soil moisture in deep soil layers. Deep vertical rotary tillage is a promising choice for this purpose. In this study, a long-term (2020–2022) field experiment consisting of three treatments, i.e., traditional tillage (TT), deep rotary tillage (DT), and deep vertical rotary tillage (VRT), was carried out in semiarid areas of Loess Plateau, northwest China, to investigate the effects of VRT on soil water storage (SWS), phase crop evapotranspiration (ETc) during the pre- and post-flowering periods, dry matter accumulation, grain yields and the water use efficiency (WUE) of forage maize. The results showed that VRT significantly improved the absorption of soil moisture from deep layers, especially in dry years. During the pre-flowering period of a dry year (2020), VRT decreased SWS by 7.6%–10.0% in the 60–180 cm layer, and by 17.6%–18.5% in the 180–300 cm layer, respectively, compared to DT and TT. As a result, VRT increased ETc during the pre-flowering period by 6.1% and 9.2%, respectively. In wet years (2021 and 2022), VRT increased total ETc by 2.0%–7.9% in 2021, and by 10.1%–14.9% in 2022, respectively. On average, VRT increased the dry matter weight per plant by 1.0%–7.8%, grain yields by 2.4%–38.6%, biomass yields by 3.4%–16.2%, and WUE by 10.1%–30.0%, respectively. Particularly, the benefit of VRT for increasing yields and WUE was more noticeable in dry years. It can be concluded that VRT is a drought-tolerant and yield-boosting tillage technique that is suitable for rain-fed forage maize in semiarid areas of Loess Plateau, northwest China. [ABSTRACT FROM AUTHOR]

Published

2024

42. Effects of SPAD value variations according to nitrogen application levels on rice yield and its components

Author

Tae-Heon Kim and Suk-Man Kim

Subjects

rice, SPAD value, low nitrogen conditions, yield components, grain yield, Plant culture, SB1-1110

Abstract

Nitrogen (N) is the most essential element for growth, development, and grain yield determination in crops. However, excessive nitrogen application can result in environmental pollution and greenhouse gas emissions that contribute to climate change. In this study, we used 158 rice genetic resources to evaluate the relationships between the soil and plant analysis development (SPAD) value and grain yield (GY) and its components. The SPAD value ranged between 30.5 and 55.8, with a mean of 41.7 ± 5.3, under normal nitrogen conditions (NN, 9 kg/10a), and between 27.5 and 52.3, with a mean of 38.6 ± 4.8, under low nitrogen conditions (LN, 4.5 kg/10a). Under NN conditions, the SPAD values were in the following order: japonica (43.5 ± 5.8), Tongil-type (41.7 ± 2.5), others (41.7 ± 5.2), and indica (38.3 ± 3.8). By contrast, under LN conditions, the SPAD values were in the following order: Tongil-type (40.4 ± 2.1), others (40.1 ± 4.5), japonica (39.6 ± 5.2), and indica (35.6 ± 3.9). The 158 genetic resources showed no correlation between SPAD and yield. Therefore, the low-decrease rate (LDR) and high-decrease rate (HDR) SPAD groups were selected to reanalyze the relationships between the surveyed traits. The SPAD values were positively correlated with 1000-grain weight (TGW) for both LDR and HDR groups (NN: 0.63, LN: 0.53), However, SPAD and GY were positively correlated only in the LDR group. For TGW, the coefficient of determination (R2) was 20% and 13% under NN and LN conditions, respectively. For GY, R2 values of 32% and 52% were observed under NN and LN conditions, respectively. Genetic resources with higher SPAD values in the LDR group exhibited the highest yield (NN: 1.19 kg/m2, LN: 1.04 kg/m2) under both NN and LN conditions. In conclusion, we selected 10 genetic resources that exhibited higher GY under both NN and LN conditions with minimal yield reductions. These genetic resources represent valuable breeding materials for nitrogen deficiency adaptation.

Published

2024

43. Morphological changes in soybean cultivars subjected to apical dominance removal at phenological stages

Author

Júlia Letícia Cassel, Gabriele Molinari Rother, Bruno Alcides Maldaner, Bruna Dalcin Pimenta, Rodrigo Luiz Ludwig, and Daniela Batista dos Santos

Subjects

pinching, branching, yield components, harvest index, phytohormone, Agriculture, Agriculture (General), S1-972

Abstract

ABSTRACT: This study evaluated the effect of removing apical dominance at phenological stages on the agronomic traits of soybean cultivars. The experiment was conducted in the 2020/2021 growing season inthe teaching-experimental area of the Federal Institute of Education, Science and Technology of Rio Grande do Sul, Campus Ibirubá, under a randomized block design in a split-plot arrangement, with three replications. The main plots were composed of five soybean cultivars (DM53i54 IPRO, Zeus IPRO, Lanza IPRO, DM5958 IPRO, and Delta IPRO), and the subplots consisted of the phenological stages of apical dominance removal (control, V2, V4, and V6). Morphological traits were evaluated at different stages. Differences were observed between cultivars, which followed their pre-defined morphologies. Apical dominance removal reduced aspects such as the number of nodes and legumes on the main stem and the first legumeinsertion height. Cultivars developed branching mechanismsas a compensation strategy, increasing the number of legumes on the branches by up to 130%. The removal of the shoot apex can modify morphological aspects in soybean plants,but their yield tends to be maintained.

Published

2024

44. Empowering cotton breeding programs through the strategic exploration and exploitation of phenotypic diversity of genetic resources under climate change conditions

Author

Naimatullah Mangi, Muhammad Shahid Iqbal, Fan Shuli, Muhammad Tauhid Iqbal, Badr Alharthi, Ghulam Hussain Jatoi, Zareen Sarfraz, Qifeng Ma, and Xuwu Sun

Subjects

Multivariate analysis, Genetic diversity, Yield components, Fiber quality, Germplasm resource, Cotton improvement, Plant ecology, QK900-989

Abstract

Plant phenotype assessment approaches have facilitated crop improvement in recent years by providing opportunities for the dissection of complex nature quantitative traits. Fiber quality and yield are significant economic traits with a complex nature mainly due to interactions between its genetic architecture and the surrounding environment. These economic traits showed stagnant performance in recent decades due to eroded genetic diversity via the selection process. It necessitates exploiting conserved germplasm resources to rebuild genetic diversity within cotton cultivars. Compared to the conventional univariate selection methods using a single trait at a time, the multivariate analysis extends its selection to multiple variables for the selection of genotypes. In evaluating a core collection of cotton over two years using various phenotyping methods, multivariate analysis, particularly principal component analysis (PCA), was employed to assess genetic diversity. The PCA analysis demonstrated substantial variability of 39.83% and 45.37% across two years, highlighting a significant impact on yield and fiber quality attributes. The cumulative eigenvalues of principal components exceeding 80% supported the classification of accessions into six distinct groups based on their trait variability. Both PCA and cluster analysis successfully categorized accessions into six groups, indicating high diversity and suggesting their potential utility in breeding programs. The diverse genotypes identified in this study would be potential resources for variety development and accelerated breeding programs, particularly focusing on stress resilience under climate change scenarios. By utilizing these diverse genotypes, there is an opportunity to enhance breeding strategies and accelerate the development of improved cotton varieties with enhanced yield and fiber quality attributes. The significance of our study lies in its demonstration of the importance of genetic diversity in improving yield and fiber quality attributes, thus underscoring its relevance to cotton breeding programs.

Published

2024

45. Unveiling the genetic potential of eggplant (Solanum melongena L.) genotypes, hybrids for yield and fruit borer resistance

Author

Thota, Harshita and Delvadiya, I. R.

Published

2024

46. Variability analysis in an underutilized pseudo-cereal grain amaranth (Amaranthus hypochodriacus L)

Author

Yadav, Rajendra Kumar

Published

2024

47. Effect of potassium supply and plant density on maize (Zea mays L.) yields and nutrient contents: a case study in a Hungarian long-term field trial set up on calcareous chernozem soil

Author

Csathó, Péter, Szabó, Anita, Pokovai, Klára, and Árendás, Tamás

Published

2024

48. Response of Wheat and Faba Bean to Intercropping and Tillage System on a Mediterranean Rainfed Vertisol

Author

Lopez-Bellido, Rafael J., Muñoz-Romero, Veronica, Fernandez-Garcia, Purificacion, and Lopez-Bellido, Luis

Published

2024

49. Yields, growth and water use under chemical topping in relations to row configuration and plant density in drip-irrigated cotton

Author

Xuejiao Wang, Yanping Hu, Chunrong Ji, Yongfan Chen, Shuai Sun, Zeshan Zhang, Yutong Zhang, Sen Wang, Mingfeng Yang, Fen Ji, Yanyun Guo, Jie Li, and Lizhen Zhang

Subjects

Yield components, Fiber quality, Transpiration, Water use efficiency, Heat ratio method (HRM), Plant culture, SB1-1110

Abstract

Abstract Background Water deficit is an important problem in agricultural production in arid regions. With the advent of wholly mechanized technology for cotton planting in Xinjiang, it is important to determine which planting mode could achieve high yield, fiber quality and water use efficiency (WUE). This study aimed to explore if chemical topping affected cotton yield, quality and water use in relation to row configuration and plant densities. Results Experiments were carried out in Xinjiang China, in 2020 and 2021 with two topping method, manual topping and chemical topping, two plant densities, low and high, and two row configurations, i.e., 76 cm equal rows and 10+66 cm narrow-wide rows, which were commonly applied in matching harvest machine. Chemical topping increased seed cotton yield, but did not affect cotton fiber quality comparing to traditional manual topping. Under equal row spacing, the WUE in higher density was 62.4% higher than in the lower one. However, under narrow-wide row spacing, the WUE in lower density was 53.3% higher than in higher one (farmers’ practice). For machine-harvest cotton in Xinjiang, the optimal row configuration and plant density for chemical topping was narrow-wide rows with 15 plants m-2 or equal rows with 18 plants m-2. Conclusion The plant density recommended in narrow-wide rows was less than farmers’ practice and the density in equal rows was moderate with local practice. Our results provide new knowledge on optimizing agronomic managements of machine-harvested cotton for both high yield and water efficient.

Published

2024

50. Unveiling the genetic potential of eggplant (Solanum melongena L.) genotypes, hybrids for yield and fruit borer resistance

Author

Harshita Thota1*and I. R. Delvadiya

Subjects

half-diallel analysis, combining ability, gene action, yield components, Plant culture, SB1-1110

Abstract

A half-diallel cross involving nine diverse brinjal genotypes, excluding reciprocals, yielded thirty-six combinations for the investigation of combining ability and gene action related to yield components. Varied genetic differences were observed among the genotypes for analyzed features, indicating that both additive and non-additive gene actions are influencing most traits. Examination of the overall combining ability effects highlighted JBR-5, JBR-3, and JBR-4 as effective general combiners for both fruit yield per plant and fruit and shoot borer infestation. Crosses demonstrating substantial specific combining ability effects in fruit yield also displayed noteworthy impacts on one or more components of yield. Promising combinations like JBR-3 X JBR-5, JBL-1 X JBR-5, and JBL-2 X JBL-3 showed potential for varietal improvement, pending multi-location yield trials to confirm their effectiveness. The most favourable cross, JBR-3 X JBR-5 (0.60), demonstrated significantly positive SCA effects for yield per plant, coupled with high and positive effects for fruit length and number of fruits per plant. Further, it also demonstrated enhanced fruit and shoot borer resistance. Most traits exhibited high narrow-sense heritability, suggesting a predominant role of additivity in phenotypic variability. Understanding the genetic mechanisms influencing economically important quantitative traits is crucial for devising successful breeding strategies. Future research should delve into advanced genomic techniques to unravel the genetic architecture of these traits and expedite the development of improved brinjal varieties with enhanced yield and resistance characteristics.

Published

2024