Drought hardiness in tomatoes

Chaudhry, Anwar Tariqu, 1940-

January 1967

No description available.

Drought-tolerant plants.

Tomatoes -- Drought tolerance.

The stability of tolerance of Sorghum spp to Striga asiatica L. Kuntze under diverse conditions and existence of pre-attachment resistance

Mandumbu, Ronald

January 2017

Sorghum is the fifth most important cereal in the world and a staple food for humans. It is also a source of food and fodder for animals. In addition to the abiotic stresses such as drought, parasitic weeds of the genus Striga cause losses in sorghum production in sub Saharan Africa. Striga asiatica is a parasitic weed that attacks cereals in low input agricultural systems and is distributed throughout semi- arid regions of Africa. Most sorghum producing farmers rely on tolerance for their harvests in Striga infested fields yet the stability of tolerance in the face of a changing climate (recurrent droughts), new farming systems (mulch based agriculture) and existence of various Striga strains needs further investigation. Reduced strigolactones production was also studied as a resistance mechanism. The first study was focused on the determination of tolerance of Striga asiatica infested sorghum under drought in a pot study. Five sorghum lines were subjected to infestation with Striga and some were not infested while watering was done at 50 percent field capacity (FC) and 100 percent FC. The results showed that the five sorghum lines differed significantly in chlorophyll content and Normalised Differential Vegetation Index (NDVI). Infection did not lower chlorophyll content when it co-occurred with drought across all sorghum lines. Drought and infestation had mutually exclusive effects on chlorophyll content and NDVI. Under infestation, internode length was similar both at 100 percent FC and at 50 percent FC while under uninfested conditions, 100 percent FC gave the longer internode compared to 50 percent FC. Both infestation and irrigation regime reduced the sorghum head weight, illustrating that the two effects have synergistic effects on sorghum head weight. The second study sought to determine the effects of mulching and infestation on sorghum spp tolerance to Striga asiatica. The experiments were carried out in the seasons 2013/14 and 2014/15 summer seasons. The results indicated that mulching increased chlorophyll content in the 2014/15 season which was a drier season compared to 2013/14. In the 2014/15 season, mulching increased chlorophyll content in all varieties except Ruzangwaya, Mukadziusaende and SC Sila. When the same varieties were infested under mulch and infested without mulch, the results showed that mulching overcomes the effects of infestation in some varieties. Mulch also negates the effect of Striga parasitism and results in yield maintenance in sorghum varieties. The third study sought to determine the stability of sorghum lines when exposed to two Striga asiatica lines sourced from two places which are 500 km apart in Zimbabwe. The two strains were termed the Chiundura and Rushinga strains, based on where they were sourced. The experiments were conducted at Henderson Research Station (HRS) at Mazoe and at Bindura University of Science Education (BUSE). The results showed differential virulence for some traits while the two strains were equally virulent for some traits. The two strains were equally virulent on all sorghum lines with respect to chlorophyll content. The different sorghum lines responded differently to the effects of the two strains. The effects of the two strains were generally similar for head index, root index, and leaf index at all sites. Generally the Chiundura strain was more virulent to sorghum lines compared to Rushinga strain, confirming the existence of physiological strains of Striga in Zimbabwe. Therefore physiological speciation of Striga asiatica exists and this adds a further dimension to the complexity of Striga management in the smallholder sector. Quantification of strigolactone production by different sorghum genotypes was conducted in the laboratory using the agar gel assay. The genotype Mukadziusaende produced significantly the least (P<0.01) quantities of strigolactones, as inferred from the maximum germination distance (MGD) from the sorghum root. The MGD was negatively correlated to tiller numbers illustrating that the more the strigolactones the less the tillering capacity. Tiller numbers and MGD can therefore be used to select for reduced strigolactones production.

Sorghum

Sorghum -- Drought tolerance

Sorghum -- Effect of drought on

Synoptic-Scale Atmospheric Conditions Associated with Flash Drought Initiation in Puerto Rico and the Caribbean

Gingrich, Tyler Michael

26 May 2022

While conventional drought has been studied for many years, new research focuses on different aspects and types of drought. Flash Drought is a relatively new area of research in drought literature, dating back to the last ten to twenty years in the United States. Flash drought in the Caribbean has received minimal attention from researchers, but it has been studied in the United States primarily because of the 2012 flash drought event over the Great Plains. This study focuses on flash drought events in Puerto Rico and the Caribbean. Because the rapid onset and intensity of flash drought can potentially cause more devastation without established prediction methods, this research seeks to understand the synoptic scale atmospheric drivers of flash drought events. Recent occurrences of a flash drought event in this region include the 2015 event in Puerto Rico, which resulted in water rationing and shortages for residents of the island (Mote et al., 2017). The primary goal of this study is to understand how flash drought initiates and propagates for Puerto Rico and the Caribbean using two definitions of flash drought. One definition is based on soil moisture deficit, and the second definition is based on the Evaporative Demand Drought Index (EDDI), an experimental drought monitoring tool. Results suggest that an anomalous convection and positive moisture event followed by negative moisture anomalies and persistent subsidence contribute to flash drought event initiation and propagation. Additionally, large scale flash drought events seem to be initiating more frequently, suggesting that the island is becoming more susceptible to the devastations of flash drought. / Master of Science / Drought in the United States is a well-known occurrence typically caused by high temperatures and low precipitation rates. States in the Western US like California, Arizona, Nevada, and more have been negatively impacted by persistent drought. These negative impacts include water rationing laws, struggling agricultural yield, and many days without precipitation. In recent years, it has been discovered that drought has a counterpart known as flash drought. Flash drought is to flash flooding as drought is to a floodplain. Floodplains are areas prone to persistent flooding, but flash flooding occurs in a matter of minutes or hours due to extremely intense precipitation and a lack of drainage for the water to leave. Flash drought is very similar to flash flooding due to the rapid onset and intensification. Flash drought has been studied for the United States in some cases, but there is very little known about flash drought in Puerto Rico and the Caribbean. This study seeks to understand how flash drought initiates and intensifies in Puerto Rico. Results of this study suggest that flash drought can initiate immediately after a large precipitation event that is followed by days without precipitation. Because of the amount of moisture after the precipitation, the atmosphere wants to evaporate that moisture back out. As more moisture is evaporated, the land becomes drier and drier, especially when there is no follow up precipitation. The lack of follow up precipitation is also explained in this study. It was found that following the big precipitation event, the atmosphere does not create more precipitation because of a persistent state of downward vertical motion. Upward vertical motion is needed for precipitation to occur, so the combination of downward vertical motion and dry air results in a flash drought event in Puerto Rico.

flash drought

drought

meteorology

Caribbean

tropical meteorology

Tolerance of sorghum seedlings to high temperature and drought

Chen, Chi

January 2011

Typescript, etc. / Digitized by Kansas State University Libraries

Sorghum

Plants--Drought tolerance

STOMATAL FREQUENCY IN DROUGHT-TOLERANT AND DROUGHT-SUSCEPTIBLE SORGHUM BICOLOR (L.) MOENCH GENOTYPES GROWN UNDER MOISTURE STRESS AND NONSTRESS.

Shawesh, Guimaa Ali, 1950-

January 1986

No description available.

Sorghum -- Drought tolerance.

Stomata.

The genetics of carbon isotope discrimination in cowpea (Vigna unguiculata L. Walp)

Ngugi, Eliud Chege Kahiu

January 1991

No description available.

580

Crop drought resistance

The effect of climate change on evapotranspiration in Sudan

Elagib, Nadir Ahmed

January 2001

No description available.

551

Agricultural drought index

Growth and water relations of beech (Fagus sylvatica L.) and oak (Quercus robur L.) in elevated atmospheric CO←2

Heath, James E. R.

January 1997

No description available.

580

Drought damage

Physiological responses of three agricultural grasses to water deficit

Metcalfe, J. C.

January 1987

No description available.

611

Drought tolerance in grasses

Some effects of severe drought on the roots of Lolium perenne

Jupp, A. P.

January 1986

No description available.

577

Drought effects on ryegrass