A framework to type crop management strategies within a production situation to improve the comprehension of weed communities

Agriculture system modeling is an effective tool in assisting agriculture practitioners to make crop calendar and to set up crop management strategies. Integration of the toll with climate forecast modeling will provide greater help for decision makers and farmers to set up better drought coping strategies. However the adoption of this tool is constrained by limited availability of long historical daily climatic data. This study indicates that the use of climatic data generator can solve this problem. Application of this approach at Pusaka Negara was assessed. It is suggested that when April SOI phase is rapidly falling or constantly negative (indicating EL-Nino years), keeping planting rice in the dry season is not recommended. Farmers may need to change their crops to non-rice crops requiring less water. The latest planting time for these crops in the El-Nino years should be first week of May. If the harvesting of first rice crops occur after 1st week of May, it is suggested that the land should be fallowed.---------------------------------------------------------------------Pemodelan sistim pertanian merupakan salah salat alat yang efektif untuk membantu pelaksana lapang dalam menyusun kalender tanam atau mengatur strategi pengelolaan tanaman. Penggabungan model tanaman dengan model prakiraan iklim akan sangat membantu pengambil kebijakan dan petani dalam menyusun strategi antisipasi kekeringan. Namun penggunaan model ini seringkali mengalami hambatan karena terbatasnya ketersediaan data iklim harian jangka panjang. Penelitian ini menunjukkan bahwa penggunakan pembangkit data iklim dapat memecahkan masalah tersebut. Aplikasi pendekatan ini di Pusakanegara telah dilakukan. Hasil penelitian merekimendaiskan ika kondisi SOI pada bulan April turun secara cepat atau konstan negatif (mengindikasikan El Nino), penanaman padi pada musim kemarau tidak direkomendasikan. Petani disarankan untuk mengganti tanamannya dengan tanaman selain padi yang memerlukan lebih sedikit air. Waktu penanaman paling terakhir pada tahun El Nino adalah minggu pertama bulan Mei. Jika panen padi pertama dilakukan setelah 1 Mei sangat disarankan untuk memberakan lahan.

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Yield enhancement of chilli through integrated crop management in Kalaburagi district of Karnataka, India

Journal of Applied and Natural Science ◽

10.31018/jans.v7i2.705 ◽

2015 ◽

Vol 7 (2) ◽

pp. 907-909

Author(s):

Raju Raju ◽

G. Teggelli ◽

Siddappa Siddappa ◽

Zaheer Ahamad ◽

Anand Naik

Keyword(s):

Insect Pests ◽

Plant Protection ◽

Management Strategies ◽

Crop Management ◽

Cost Benefit ◽

Yield Enhancement ◽

Biotic Stresses ◽

Pests And Diseases ◽

Integrated Crop Management ◽

Farmer Practices

One of the major reasons of low productivity in chilli is the lack of technical knowledge of the farmers about judicious and timely implementation of the management strategies against the major biotic stresses (insect pests and diseases) which ultimately reduce its return. Considering the integrated crop management on need based plant protection in vegetables was conducted in farmer’s fields at different villages of the Kalaburagi district, under northern part of Karnataka, during the period from 2011-12 to 2013-14 show the productivity potential and profitability of improved technologies. The results showed that, on an average the highest yield achieved by adopting integrated crop management was 260.17 quintals ha-1, whereas the corresponding yield ranged under farmer’s practices was to 235.243 quintals ha-1 of green chillies. Adoption of integrated crop management will increase the yield 10.56% over farmer practices. The average technological gap, extension gap and technological index were noticed 139.83 quintals ha-1, 24.92 quintals ha-1 and 34.95 % respectively. The economics of data indicated that an average of Rs. 1,64,500 ha-1 was recorded net profit under recommended practices while it was Rs 129976.7 ha-1 under farmer practices. Cost benefit ratio was 3.07 under demonstration, while it was 2.35 under farmer practices. Practicing of integrated crop management with improved technologies will improve the farmer socio-economical level.

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Soil and Crop Management Strategies to Ensure Higher Crop Productivity within Sustainable Environments

Sustainability ◽

10.3390/su11051485 ◽

2019 ◽

Vol 11 (5) ◽

pp. 1485 ◽

Cited By ~ 26

Author(s):

Farooq Shah ◽

Wei Wu

Keyword(s):

Agricultural Production ◽

Nutrient Management ◽

Management Strategies ◽

Soil Health ◽

Crop Management ◽

Conservation Agriculture ◽

Crop Productivity ◽

Soil Fertility Management ◽

Agricultural Producers ◽

Integrated Crop Management

The rising population and reduction in the amount of land and some other resources have created tremendous pressure on current agricultural producers to meet the increasing food demands. To cope with this challenge, certain key inputs, such as fertilizers and other chemicals, are overused, which are worsening the surroundings. This intensive agricultural production without adherence to ecological sustainability has led to declining soil health, land degradation, and severe environmental problems. So, future efforts to feed the growing population should aim for greater agricultural production within sustainable environments. In this regard, innovative steps are needed, as business-as-usual policies lack the potential to cope with these challenges. The concept of agricultural sustainability and various soil and crop management strategies (SCMS) that have been designed to optimize crop yield under sustainable environmental conditions are discussed, including nutrient management, site specific nutrient management (SSNM), integrated nutrient management (INM), integrated soil fertility management (ISFM), integrated soil-crop system management (ISSM), ridge-furrow mulching systems (RFMS), sustainable water management (SWM), conservation agriculture (CA), sustainable land management (SLM), vertical/sky farming, and integrated crop management, and breeding strategies as well as other approaches combined with technological and behavioural changes. The present review suggests that a sustainable production system can be developed by combining the multifaceted efforts under SCMS practices with short- and long-term preventive measures. Reducing chemicals’ usage, such as that of fertilizers and pesticides, plus improvements in the crop input use efficiency could minimize greenhouse gases emissions while protecting the environment. Sustainable agriculture holds promise for humankind and the planet Earth, and it can be successful if all developed and developing nations stand together to seek ‘our common future’ to produce more food while generating less environmental pressure.

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A SMAF assessment of U.S. tillage and crop management strategies

Environmental and Sustainability Indicators ◽

10.1016/j.indic.2020.100072 ◽

2020 ◽

Vol 8 ◽

pp. 100072

Author(s):

Márcio R. Nunes ◽

Douglas L. Karlen ◽

Kristen S. Veum ◽

Thomas B. Moorman

Keyword(s):

Management Strategies ◽

Crop Management

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Barriers to and determinants of the choice of crop management strategies to combat climate change in Dejen District, Nile Basin of Ethiopia

Agriculture & Food Security ◽

10.1186/s40066-018-0188-y ◽

2018 ◽

Vol 7 (1) ◽

Cited By ~ 3

Author(s):

Zerihun Yohannes Amare ◽

Johnson O. Ayoade ◽

Ibidun O. Adelekan ◽

Menberu Teshome Zeleke

Keyword(s):

Climate Change ◽

Management Strategies ◽

Crop Management ◽

Nile Basin ◽

Combat Climate Change

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Horticultural Crop Response to Different Environmental and Nutritional Stress

Horticulturae ◽

10.3390/horticulturae7080240 ◽

2021 ◽

Vol 7 (8) ◽

pp. 240

Author(s):

Stefano Marino

Keyword(s):

Traditional Approach ◽

Global Climate ◽

Management Strategies ◽

Growth Dynamics ◽

Crop Management ◽

Nutritional Stress ◽

Horticultural Crop ◽

Horticultural Crops ◽

Yield And Quality

Environmental conditions and nutritional stress may greatly affect crop performance. Abiotic stresses such as temperature (cold, heat), water (drought, flooding), irradiance, salinity, nutrients, and heavy metals can strongly affect plant growth dynamics and the yield and quality of horticultural products. Such effects have become of greater importance during the course of global climate change. Different strategies and techniques can be used to detect, investigate, and mitigate the effects of environmental and nutritional stress. Horticultural crop management is moving towards digitized, precision management through wireless remote-control solutions, but data analysis, although a traditional approach, remains the basis of stress detection and crop management. This Special Issue summarizes the recent progress in agronomic management strategies to detect and reduce environmental and nutritional stress effects on the yield and quality of horticultural crops.

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