Winter Canola Dry Matter and Nutrient Accumulation and Partitioning and Yield Formation in Northeast Kansas PDF Download
Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Winter Canola Dry Matter and Nutrient Accumulation and Partitioning and Yield Formation in Northeast Kansas PDF full book. Access full book title Winter Canola Dry Matter and Nutrient Accumulation and Partitioning and Yield Formation in Northeast Kansas by Allison M. Aubert. Download full books in PDF and EPUB format.
Author: Allison M. Aubert
Publisher:
ISBN:
Category :
Languages : en
Pages :
Get Book Here
Book Description
Winter canola (Brassica napus L.) in the southern Great Plains offers producers an opportunity to diversify their cropping systems and take advantage of several beneficial aspects of canola. One of the obvious benefits is seed yield. However, due to the indeterminate nature of canola and its ability to adapt to growing conditions, it has been difficult to gain an understanding of dry matter (DM) accumulation, nutrient accumulation, and yield formation. This research was done in an attempt to improve knowledge and understanding of winter canola growth and development in northeast Kansas. Two samplings and two experiments were conducted in Manhattan, Kansas from the spring of 2017 to spring of 2019. Biomass samples were collected along with other potential yield formation data throughout the winter canola growing season. The two samplings (2016-17 and 2017-18) did not have treatment factors. The first experiment (2017-18) had one treatment factor with two levels of plant density. The second experiment (2018-19) had two treatment factors of variety and plant density with two levels each. The first objective of this research was to determine the pattern of dry matter accumulation and partitioning throughout the growing season of winter canola in northeast Kansas at both high and low plant populations, and with open-pollinated (OP) varieties that were bred in Kansas. Plant DM increased quickly and steadily through bolt and the beginning of pod fill. The accumulation rate slowed by the middle of pod fill. Dry matter peaked during ripening in all of the studies. At the end of the season there was 36 to 50% of the DM in vegetative material, 25 to 33% in pod material, and 24 to 34% in the seed. There was generally more DM accumulated in the high plant density than the low density, except in one experiment at harvest when the low density had greater DM than the high density. The varieties accumulated DM similarly to each other. The second objective was to determine the pattern of nutrient accumulation and partitioning throughout the growing season for winter canola in northeast Kansas at high and low plant populations and with OP varieties. Plant nutrient accumulation generally followed the same trend as the DM accumulation. For nitrogen, 17 to 40% of nitrogen at the end of the season was in vegetative, 13 to 17% in pod, and 44 to 66% in seed material. For phosphorus, 14 to 36% of phosphorus at the end of the season was in vegetative, 7 to 32% in pod, and 35 to 78% in seed material. For potassium, 42 to 50% of potassium at the end of the season was in vegetative, 30 to 37% in pod, and 13 to 26% in seed material. For sulfur, 25 to 37% of sulfur at the end of the season was in vegetative, 35 to 49% in pod, and 21 to 32% in seed material. For iron, 15 to 45% of sulfur at the end of the season was in vegetative, 20 to 27% in pod, and 28 to 65% in seed material. The third objective of this research was to identify yield formation factors that contribute to yield and are potentially useful indicators in predicting yield. Plant DM, seed DM, plant height, and pod count on the main raceme were the most highly correlated measurements to yield at the most sampling dates out of the identified potential yield indicators. For those factors with high correlation values, there were several sampling dates with an r2 value of 0.5 or above. Determining a pattern of DM accumulation and nutrient accumulation and identifying factors that drive yield formation has contributed to the understanding of winter canola growth and development.
Author: Allison M. Aubert
Publisher:
ISBN:
Category :
Languages : en
Pages :
Get Book Here
Book Description
Winter canola (Brassica napus L.) in the southern Great Plains offers producers an opportunity to diversify their cropping systems and take advantage of several beneficial aspects of canola. One of the obvious benefits is seed yield. However, due to the indeterminate nature of canola and its ability to adapt to growing conditions, it has been difficult to gain an understanding of dry matter (DM) accumulation, nutrient accumulation, and yield formation. This research was done in an attempt to improve knowledge and understanding of winter canola growth and development in northeast Kansas. Two samplings and two experiments were conducted in Manhattan, Kansas from the spring of 2017 to spring of 2019. Biomass samples were collected along with other potential yield formation data throughout the winter canola growing season. The two samplings (2016-17 and 2017-18) did not have treatment factors. The first experiment (2017-18) had one treatment factor with two levels of plant density. The second experiment (2018-19) had two treatment factors of variety and plant density with two levels each. The first objective of this research was to determine the pattern of dry matter accumulation and partitioning throughout the growing season of winter canola in northeast Kansas at both high and low plant populations, and with open-pollinated (OP) varieties that were bred in Kansas. Plant DM increased quickly and steadily through bolt and the beginning of pod fill. The accumulation rate slowed by the middle of pod fill. Dry matter peaked during ripening in all of the studies. At the end of the season there was 36 to 50% of the DM in vegetative material, 25 to 33% in pod material, and 24 to 34% in the seed. There was generally more DM accumulated in the high plant density than the low density, except in one experiment at harvest when the low density had greater DM than the high density. The varieties accumulated DM similarly to each other. The second objective was to determine the pattern of nutrient accumulation and partitioning throughout the growing season for winter canola in northeast Kansas at high and low plant populations and with OP varieties. Plant nutrient accumulation generally followed the same trend as the DM accumulation. For nitrogen, 17 to 40% of nitrogen at the end of the season was in vegetative, 13 to 17% in pod, and 44 to 66% in seed material. For phosphorus, 14 to 36% of phosphorus at the end of the season was in vegetative, 7 to 32% in pod, and 35 to 78% in seed material. For potassium, 42 to 50% of potassium at the end of the season was in vegetative, 30 to 37% in pod, and 13 to 26% in seed material. For sulfur, 25 to 37% of sulfur at the end of the season was in vegetative, 35 to 49% in pod, and 21 to 32% in seed material. For iron, 15 to 45% of sulfur at the end of the season was in vegetative, 20 to 27% in pod, and 28 to 65% in seed material. The third objective of this research was to identify yield formation factors that contribute to yield and are potentially useful indicators in predicting yield. Plant DM, seed DM, plant height, and pod count on the main raceme were the most highly correlated measurements to yield at the most sampling dates out of the identified potential yield indicators. For those factors with high correlation values, there were several sampling dates with an r2 value of 0.5 or above. Determining a pattern of DM accumulation and nutrient accumulation and identifying factors that drive yield formation has contributed to the understanding of winter canola growth and development.
Author: Andy Clark
Publisher: DIANE Publishing
ISBN: 1437903797
Category : Technology & Engineering
Languages : en
Pages : 248
Get Book Here
Book Description
Cover crops slow erosion, improve soil, smother weeds, enhance nutrient and moisture availability, help control many pests and bring a host of other benefits to your farm. At the same time, they can reduce costs, increase profits and even create new sources of income. You¿ll reap dividends on your cover crop investments for years, since their benefits accumulate over the long term. This book will help you find which ones are right for you. Captures farmer and other research results from the past ten years. The authors verified the info. from the 2nd ed., added new results and updated farmer profiles and research data, and added 2 chap. Includes maps and charts, detailed narratives about individual cover crop species, and chap. about aspects of cover cropping.
Author:
Publisher:
ISBN:
Category : Agriculture
Languages : en
Pages : 1254
Get Book Here
Book Description
Author: R.F. Follett
Publisher: Gulf Professional Publishing
ISBN: 0080537561
Category : Technology & Engineering
Languages : en
Pages : 539
Get Book Here
Book Description
Nitrogen in the Environment: Sources, Problems, and Management is the first volume to provide a holistic perspective and comprehensive treatment of nitrogen from field, to ecosystem, to treatment of urban and rural drinking water supplies, while also including a historical overview, human health impacts and policy considerations. It provides a worldwide perspective on nitrogen and agriculture. Nitrogen is one of the most critical elements required in agricultural systems for the production of crops for feed, food and fiber. The ever-increasing world population requires increasing use of nitrogen in agriculture to supply human needs for dietary protein. Worldwide demand for nitrogen will increase as a direct response to increasing population. Strategies and perspectives are considered to improve nitrogen-use efficiency. Issues of nitrogen in crop and human nutrition, and transport and transformations along the continuum from farm field to ground water, watersheds, streams, rivers, and coastal marine environments are discussed. Described are aerial transport of nitrogen from livestock and agricultural systems and the potential for deposition and impacts. The current status of nitrogen in the environment in selected terrestrial and coastal environments and crop and forest ecosystems and development of emerging technologies to minimize nitrogen impacts on the environment are addressed. The nitrogen cycle provides a framework for assessing broad scale or even global strategies to improve nitrogen use efficiency. Growing human populations are the driving force that requires increased nitrogen inputs. These increasing inputs into the food-production system directly result in increased livestock and human-excretory nitrogen contribution into the environment. The scope of this book is diverse, covering a range of topics and issues from furthering our understanding of nitrogen in the environment to policy considerations at both farm and national scales.
Author: Istvan Bogardi
Publisher: Springer Science & Business Media
ISBN: 3642760406
Category : Technology & Engineering
Languages : en
Pages : 438
Get Book Here
Book Description
The nitrate content of drinking water is rising at an alarming rate in several regions of NATO countries and elsewhere in the world. The increase is due to lack of proper sewage treatment, and primarily to excess fertilizer application. Also, eutrophication in several coastal areas is triggered by high nitrate concentrations. The main purpose of this book is to integrate scientific knowledge related to exposure assessment, health consequences and control of nitrate contamination in water. The motivation is related to the magnitude, the possible adverse health effects, and the high cost of control ling nitrate contamination. Future research tasks are defined by an interaction among hydro logists, toxicologists and environmental engineers in an integrated framework for nitrate risk management. The target readership of this book is a mix of university colleagues, practitioners from both the private and public sectors and advanced graduate students working with the hydrological, health science or environmental engineering aspects of nitrate contamination. The main conclusions include: 1. For risk assessment purposes, knowledge and sufficiently accurate models are available to predict nitrate load and its fate in water under changes in land use. 2. Once agricultural exposure controls are implemented, the response times in ground water may be so long as to make controls unrealistic. 3. It is still unknown whether agricultural best management practice is a compromise between nitrate risk reduction and agricultural revenue. 4. The current drinking water guidelines of 10 mg/L NOrN need not be changed.
Author: Amitav Bhattacharya
Publisher: Springer Nature
ISBN: 9813362766
Category : Science
Languages : en
Pages : 717
Get Book Here
Book Description
This book explores the impact of soil water deficiency on various aspects of physiological processes in plants. The book explains the effects under soil water deficit condition such as lowering of plant water content, disturbance in carbon metabolism such in photosynthesis, photorespiration and respiration as well as effects of soil water deficit on nitrogen metabolism. The book also educates the readers about, mineral nutrition under soil water deficit condition and roles of different nutrient to overcome water deficit. Changes in growth and development pattern of plant under soil water deficit condition and effects on growth and development are elaborated. This book is of interest to teachers, researchers, scientists in botany and agriculture. Also the book serves as additional reading material for undergraduate and graduate students of agriculture, forestry, ecology, soil science, and environmental sciences. National and international agricultural scientists, policy makers will also find this to be a useful read. The in depth description of the major physiological issues in plants under soil water deficit that are presented in this book will help breeders tailoring crops for desirable physiological survival traits in the face of increasing soil water deficit. This book is an impactful addition to the library of any faculty members, researchers, agricultural policy planner, post graduate or student studying in plant physiology, biochemistry, microbiology and other subjects related to crop husbandry.
Author: Brian Harrison Walker
Publisher: Cambridge University Press
ISBN: 9780521578103
Category : Nature
Languages : en
Pages : 654
Get Book Here
Book Description
This major new book presents a collection of essays by leading authorities who address the current state of knowledge. The chapters bring together the early results of an international scientific research program designed to address what will happen to our ability to produce food and fiber, and what effects there will be on biological diversity under rapid environmental change. This book addresses how these changes to terrestrial ecosystems will feed back to further environmental change. International in scope, this state-of-the-art assessment will interest policymakers, students and scientists interested in global change, climate change and biodiversity. Special features include descriptions of a dynamic global vegetation model, developing generic crop models and a special section on the emerging discipline of global ecology.
Author:
Publisher:
ISBN:
Category : Agriculture
Languages : en
Pages : 1810
Get Book Here
Book Description
Author: Victor Sadras
Publisher: Academic Press
ISBN: 0128191953
Category : Technology & Engineering
Languages : en
Pages : 780
Get Book Here
Book Description
Crop Physiology: Case Histories of Major Crops updates the physiology of broad-acre crops with a focus on the genetic, environmental and management drivers of development, capture and efficiency in the use of radiation, water and nutrients, the formation of yield and aspects of quality. These physiological process are presented in a double context of challenges and solutions. The challenges to increase plant-based food, fodder, fiber and energy against the backdrop of population increase, climate change, dietary choices and declining public funding for research and development in agriculture are unprecedented and urgent. The proximal technological solutions to these challenges are genetic improvement and agronomy. Hence, the premise of the book is that crop physiology is most valuable when it engages meaningfully with breeding and agronomy. With contributions from 92 leading scientists from around the world, each chapter deals with a crop: maize, rice, wheat, barley, sorghum and oat; quinoa; soybean, field pea, chickpea, peanut, common bean, lentil, lupin and faba bean; sunflower and canola; potato, cassava, sugar beet and sugarcane; and cotton. A crop-based approach to crop physiology in a G x E x M context Captures the perspectives of global experts on 22 crops
Author: United States. Agricultural Marketing Service. Grain Division
Publisher:
ISBN:
Category : Grain
Languages : en
Pages : 108
Get Book Here
Book Description
