Single dose fertilization at reduced nitrogen rate improves nitrogen utilization without yield reduction in late-planted cotton under a wheat–cotton cropping system

2022 ◽  
Vol 176 ◽  
pp. 114346
Author(s):  
Anda Liu ◽  
Xiaolei Ma ◽  
Zhao Zhang ◽  
Jiahao Liu ◽  
Dan Luo ◽  
...  
Keyword(s):  
Single Dose ◽  
Cropping System ◽  
Nitrogen Utilization ◽  
Yield Reduction ◽  
Nitrogen Rate ◽  
Reduced Nitrogen

Nitrogen Rate and Hybrid Selection Matters Productivity of Maize–Maize Cropping System under Irrigated Arid Environment of Southern Punjab, Pakistan

2020 ◽  
Vol 14 (2) ◽  
pp. 309-320 ◽  
Author(s):  
Ghulam Abbas ◽  
Zartash Fatima ◽  
Mubshar Hussain ◽  
Sajjad Hussain ◽  
Atique-ur-Rehman ◽  
...  
Keyword(s):  
Cropping System ◽  
Arid Environment ◽  
Nitrogen Rate ◽  
Hybrid Selection

scholarly journals Wild onion (Asphodelus tenuifolius) competition in rainfed chickpea-chickpea cropping system

2015 ◽  
Vol 33 (1) ◽  
pp. 67-75 ◽  
Author(s):  
M. SIBTAIN ◽  
A. TANVEER ◽  
M.M. JAVAID ◽  
H.H. ALI
Keyword(s):  
Seed Yield ◽  
Dry Matter ◽  
Yield Loss ◽  
Cropping System ◽  
Growth And Yield ◽  
Yield Potential ◽  
Yield Reduction ◽  
Estimation Model ◽  
Plant Seeds ◽  
100 Seed Weight

Chickpea yield potential is limited by weed competition in typical chickpea growing areas of Pakistan where zero tillage crop grown on moisture conserved from rains received during the months of September and August. The objective of this work was to evaluate the growth and yield characteristics of chickpea grown in coexistence with increasing densities of wild onion (Asphodelus tenuifolius). The experiment was comprised of six density levels viz. zero, 20, 40, 80, 160 and 320 plants m-2 of A. tenuifolius. A decrease in chickpea primary and secondary branches per plant, pods per plant, seeds per pod, 100-seed weight and seed yield was observed due to more accumulation of dry matter per increasing densities of A. tenuifolius. The increase in A. tenuifolius density accelerated chickpea yield losses and reached the maximum values of 28, 35, 42, 50, 58 and 96% at 20, 40, 80, 160 and 320 A. tenuifolius plants m-2, respectively. The yield loss estimation model showed that chickpea losses with infinite A. tenuifolius density were 60%. Yield reduction could be predicted by 2.52% with increase of one A. tenuifolius plant m-2. It is concluded that A. tenuifolius has a strong influence on chickpea seed yield and showed a linear response at the range of densities studied.

Optimizing the synthetic nitrogen rate to balance residual nitrate and crop yield in a leguminous green-manured wheat cropping system

2018 ◽  
Vol 631-632 ◽  
pp. 1234-1242 ◽  
Author(s):  
Zhiyuan Yao ◽  
Dabin Zhang ◽  
Pengwei Yao ◽  
Na Zhao ◽  
Yangyang Li ◽  
...  
Keyword(s):  
Crop Yield ◽  
Cropping System ◽  
Nitrogen Rate ◽  
Residual Nitrate

scholarly journals Competition in a rice - cowpea intercrop as affected by nitrogen fertilizer and plant population

2007 ◽  
Vol 64 (6) ◽  
pp. 621-629 ◽  
Author(s):  
Frank Oke Oroka ◽  
Anthony U. Omoregie
Keyword(s):  
Population Density ◽  
Resource Use ◽  
Upland Rice ◽  
Plant Population ◽  
Nitrogen Utilization ◽  
Utilization Efficiency ◽  
High Population Density ◽  
Nitrogen Rate ◽  
Use Of Resources ◽  
Nitrogen Utilization Efficiency

The increased productivity or yield advantage provided by intercropping is attributed to a better use of resources by crops grown in mixtures, as compared to the same species grown in sole stands. In an intercropping system with upland rice and cowpea, the intra and inter-competition was quantified, as affected by plant population density and rate of nitrogen. Reductions in number of panicles per rice plant and number of grains per panicle were obtained with high density in both sole and mixture rice populations. Increasing nitrogen rate did not affect yield and yield components in both populations, but number and weight of pods per plant of cowpea in sole stands increased. Land equivalent ratios exceeding unity were obtained, indicating an improved resource use by the crop mixture. Relative crowding coefficient and aggressivity indices showed cowpea to be the dominant crop, with rice being dominated. Nitrogen utilization efficiency was high with intercrops, but was generally poor in stands of high population density.

scholarly journals Benefits and Trade-Offs of Tillage Management in China: A Meta-Analysis

Agronomy ◽  
2021 ◽  
Vol 11 (8) ◽  
pp. 1495
Author(s):  
Yingcheng Wang ◽  
Hao Ying ◽  
Yulong Yin ◽  
Hongye Wang ◽  
Zhenling Cui
Keyword(s):  
Crop Yields ◽  
Soil Depth ◽  
Cropping Systems ◽  
Meta Analysis ◽  
Ghg Emissions ◽  
Cropping System ◽  
Economic Benefits ◽  
Yield Reduction ◽  
Trade Offs ◽  
Net Profit

In China, deep tillage (DT; to >20 cm soil depth) has increased crop yields by improving soil properties, while no-tillage (NT) has been recommended to reduce the labor and machinery costs. Local farmers are willing to adopted rotary tillage (RT; harrowing to 10–15 cm depth) for easy management. However, the effects of these tillage management methods on agronomic productivity, greenhouse gas (GHG) emissions, soil organic carbon (SOC) sequestration, and economic return have not been quantified systematically, and their effectiveness remains in question. Here, we present a meta-analysis of the effects of these methods using 665 paired measurements from 144 peer-reviewed studies. The results indicated that DT significantly increased crop yields by 7.5% relative to RT, and even greater increases were observed in regions with low temperatures and with a wheat cropping system. In contrast, NT resulted in a yield reduction of 3.7% relative to RT, however, controlling for the appropriate temperature and long extension duration (>15 yr) could reduce yield losses and even increase the yield. Both DT and NT significantly enhanced SOC sequestration relative to RT. Adoption of DT would lead to both higher total GHG emissions (N2O and CH4) and increased energy costs, while NT reduced GHG emissions. DT management exhibited a positive net profit for all cropping systems; NT decreased the net profit for rice and wheat but increased the profit for maize. Our study highlighted the agronomic, environmental, and economic benefits and trade-offs for the different tillage methods and should enable investors and policymakers to ensure the best tillage management decisions are made depending on the location-specific conditions.

scholarly journals African Nightshade and African Spinach Decrease Root-Knot Nematode and Potato Cyst Nematode Soil Infestation in Kenya

Plant Disease ◽  
2019 ◽  
Vol 103 (7) ◽  
pp. 1621-1630 ◽  
Author(s):  
Oliver Chitambo ◽  
Solveig Haukeland ◽  
Komi K. M. Fiaboe ◽  
Florian M. W. Grundler
Keyword(s):  
Cropping System ◽  
Parasitic Nematodes ◽  
Yield Reduction ◽  
Plant Parasitic Nematodes ◽  
Root Knot Nematode ◽  
Cyst Nematodes ◽  
Crop Species ◽  
African Indigenous Vegetables ◽  
Soil Infestation ◽  
Plant Parasitic

Plant-parasitic nematodes, particularly root-knot nematodes (RKN: Meloidogyne spp.) and cyst nematodes (CN: Globodera and Heterodera spp.) cause severe yield reduction in most cultivated crops and are of high economic importance. African nightshade (Solanum spp.) and African spinach (Amaranthus spp.) are important African indigenous vegetables (AIV) and are rich sources of nutrition and income. However, their host status to plant-parasitic nematodes remains largely speculative. Therefore, a survey was conducted which revealed that S. villosum exhibited high root galling, whereas on S. scabrum, A. cruentus, and A. dubius root galling was rare or very low. Additionally, soil collected from the rhizosphere of S. villosum and S. scabrum contained few cysts of potato cyst nematodes (PCN), and no developing PCN females were observed on the roots of growing plants. Therefore, we studied the dynamics of RKN and PCN on A. dubius, A. cruentus, S. scabrum, and S. villosum over 2 years in a field experiment. The effects of AIV crop species on RKN and PCN soil infestation were evaluated using susceptible S. lycopersicum or S. tuberosum. After first, second, and third cultivation of A. dubius, A. cruentus, and S. scabrum, RKN infestation of the soil decreased by more than 85%, whereas S. scabrum and S. villosum decreased PCN densities by more than 80%. When cropping susceptible crops, after three seasons of successive cultivation of these AIV, galling index and number of developing PCN females measured on susceptible crops decreased by more than 75%. Wilting and RKN-PCN coinfection incidences also decreased significantly. Here, we present data that support the development of a novel cropping system including African spinach and African nightshade, which reveals a high potential to manage RKN and PCN in an environmentally friendly, effective, and productive way.

scholarly journals Reduced Nitrogen Rate with Increased Planting Density Facilitated Grain Yield and Nitrogen Use Efficiency in Modern Conventional Japonica Rice

Agriculture ◽  
2021 ◽  
Vol 11 (12) ◽  
pp. 1188
Author(s):  
Tianyao Meng ◽  
Xi Chen ◽  
Jialin Ge ◽  
Xubin Zhang ◽  
Guisheng Zhou ◽  
...  
Keyword(s):  
Grain Yield ◽  
Harvest Index ◽  
Nutrient Use Efficiency ◽  
Planting Density ◽  
Shoot Biomass ◽  
Japonica Rice ◽  
Nitrogen Rate ◽  
Nutrient Use ◽  
Reduced Nitrogen ◽  
Use Efficiency

The past three decades have seen a pronounced development of conventional japonica rice from the 1990s, although little information is available on changes regarding grain yield and nutrient use efficiency during this process. Nine conventional japonica rice released during the 1990s, 2000s, and 2010s were grown under a reduced nitrogen rate, with increased planting density (RNID) and local cultivation practice (LCP) in 2017 and 2018. The rice from the 2010s had 3.6–5.5% and 7.0–10.1% higher (p < 0.05) grain yield than the 2000s and the 1990s, respectively, under RNID and LCP. The harvest index contributed more to genetic yield gain from the 1990s to the 2000s; whereas from the 2000s to 2010s, yield increase contributed through shoot biomass. Genetic improvement increased total nitrogen (N), phosphorus (P), and potassium (K) accumulation, and their use efficiencies. The rice from the 2010s showed a similar grain yield, whereas the 1990s and 2000s’ rice exhibited a lower (p < 0.05) grain yield under RNID relative to LCP. RNID increased N, P, and K use efficiencies, particularly the N use efficiency for the grain yield (NUEg) of the 2010s’ rice, compared with LCP. For three varietal types, RNID increased the panicles per m2, the filled-grain percentage, and the grain weight (p < 0.05) while decreasing spikelets per panicle of the 2010s’ rice. Compared with LCP, RNID reduced non-structural carbohydrate (NSC) content and shoot biomass, at heading and maturity, while increasing the remobilization of NSC and the harvest index, especially for the 2010s’ rice. Our results suggested the impressive progressive increase in grain yield and nutrient use efficiency of conventional japonica rice since the 1990s in east China. RNID could facilitate grain yield and NUEg for modern conventional japonica rice.

scholarly journals ​Challenges of Herbicide Resistant Weeds in Wheat in India and its Management: A Review

2021 ◽  
Author(s):  
Kartik Sharma ◽  
Sachin Dhanda ◽  
Munish Leharwan ◽  
Kuldeep Singh
Keyword(s):  
Crop Production ◽  
Management Strategies ◽  
Winter Season ◽  
Cropping System ◽  
North India ◽  
Current Status ◽  
Yield Reduction ◽  
Weed Species ◽  
Cropland Area ◽  
Herbicide Resistant

Agriculture is an important part of the India’s economy. India ranks first in net cropland area in the world with 179.8 mha which is 9.6% of global net cropland area and India’s agriculture sector makes up 16% of the country’s economy, while accounting for 49% of employment (FAOSTAT, 2020). The rice-wheat cropping system (RWCS) is extensive in the subtropical areas of the Indo-Gangetic Plains of India while maize-wheat is widespread in tropical, sub-tropical and warm temperate regions. In north India, rice is grown in the summer season (June/July to September/October) whereas wheat is grown in the winter season (October/November to February/March). The area under wheat in India was 30.59 mha with an annual production of 99.78 mt and average productivity of 3.22 t ha-1 (Anonymous, 2019). The weeds are accounting as a major factor in yield reduction of wheat. The mechanical weed control is not so much effective in controlling weeds in wheat because of narrow inter row spacing. Further, the manual weeding is not much feasible because of mimicry weeds like Phalaris minor which are very much similar to wheat during initial stages. Therefore, the role of herbicides cannot be neglected. But the continuous application of herbicides with same mode of action year by year has resulted in evolution of herbicide resistance in weed species. The management of herbicide resistant weeds in crop production is a major challenge. This review mainly focuses on the current status of herbicide resistant weeds in India associated with wheat along with their management strategies.

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