A generalizable and tunable engineered ecosystem provides a clear route to prosperity and well-being to harness the worlds aquatic blue food systems to help end hunger: A perspective.

Seafood security is essential in modern society. In 2013, Bush and colleagues stated, Aquaculture, farming aquatic organisms, provides close to 50% of the worlds supply of seafood, with a value of United States $125 billion. It makes up 13% of the worlds animal-source protein (excluding eggs and dai...

Full description

Bibliographic Details
Main Authors: He, Jian-Guo, Li, Shengwen
Format: Article in Journal/Newspaper
Language:unknown
Published: eScholarship, University of California 2022
Subjects:
AQUAL
aquaculture
biological control
predator
shrimp
viral control
Iceland
Online Access:https://escholarship.org/uc/item/2549g6k6
id ftcdlib:oai:escholarship.org:ark:/13030/qt2549g6k6
record_format openpolar
spelling ftcdlib:oai:escholarship.org:ark:/13030/qt2549g6k6 2023-11-12T04:19:31+01:00 A generalizable and tunable engineered ecosystem provides a clear route to prosperity and well-being to harness the worlds aquatic blue food systems to help end hunger: A perspective. He, Jian-Guo Li, Shengwen 2022-01-01 application/pdf https://escholarship.org/uc/item/2549g6k6 unknown eScholarship, University of California qt2549g6k6 https://escholarship.org/uc/item/2549g6k6 public AQUAL aquaculture biological control predator shrimp viral control article 2022 ftcdlib 2023-10-30T19:04:45Z Seafood security is essential in modern society. In 2013, Bush and colleagues stated, Aquaculture, farming aquatic organisms, provides close to 50% of the worlds supply of seafood, with a value of United States $125 billion. It makes up 13% of the worlds animal-source protein (excluding eggs and dairy) and employs an estimated 24 million people. With the increase in the human population and reducing fishing resources, humans increasingly rely on aquacultural products as the primary protein sources for many countries. Aquacultural productivity has been improving in recent years, and in certain countries, the aquaculture output is more than the fishing output. For example, Chinese aquaculture production is more than fishing output, which provides one-third of animal protein. Thus, intensive aquaculture has become the main supply with global aquatic products (FAO). In recent years, it is estimated that each person consumption of aquaculture products is 130 kg in some countries (Iceland). Here, we illustrate the road blocker in farmed shrimp production and provide our resolution. The global pandemic of white spot syndrome (WSS), caused by the white spot syndrome virus (WSSV), bears a devastating economic loss in farmed shrimp production, thereby jeopardizing seafood security. Currently, there is no effective control for WSS. Conventional single-species intensive farming removes the spatiotemporal interaction between different species. We hypothesize that establishing the spatiotemporal interface of a predator-prey may control WSS outbreak. We search for the pathways for the mechanisms by which predator-prey species interact and compete across spatial scales to characterize WSSV dispersal at regional scales for the local spatiotemporal structure of viral transmission. Thus, we create a generalizable and tunable engineered ecosystem that provides a clear route to prosperity and well-being to harness the worlds aquatic blue food systems to help end hunger. Article in Journal/Newspaper Iceland University of California: eScholarship
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language unknown
topic AQUAL
aquaculture
biological control
predator
shrimp
viral control
spellingShingle AQUAL
aquaculture
biological control
predator
shrimp
viral control
He, Jian-Guo
Li, Shengwen
A generalizable and tunable engineered ecosystem provides a clear route to prosperity and well-being to harness the worlds aquatic blue food systems to help end hunger: A perspective.
topic_facet AQUAL
aquaculture
biological control
predator
shrimp
viral control
description Seafood security is essential in modern society. In 2013, Bush and colleagues stated, Aquaculture, farming aquatic organisms, provides close to 50% of the worlds supply of seafood, with a value of United States $125 billion. It makes up 13% of the worlds animal-source protein (excluding eggs and dairy) and employs an estimated 24 million people. With the increase in the human population and reducing fishing resources, humans increasingly rely on aquacultural products as the primary protein sources for many countries. Aquacultural productivity has been improving in recent years, and in certain countries, the aquaculture output is more than the fishing output. For example, Chinese aquaculture production is more than fishing output, which provides one-third of animal protein. Thus, intensive aquaculture has become the main supply with global aquatic products (FAO). In recent years, it is estimated that each person consumption of aquaculture products is 130 kg in some countries (Iceland). Here, we illustrate the road blocker in farmed shrimp production and provide our resolution. The global pandemic of white spot syndrome (WSS), caused by the white spot syndrome virus (WSSV), bears a devastating economic loss in farmed shrimp production, thereby jeopardizing seafood security. Currently, there is no effective control for WSS. Conventional single-species intensive farming removes the spatiotemporal interaction between different species. We hypothesize that establishing the spatiotemporal interface of a predator-prey may control WSS outbreak. We search for the pathways for the mechanisms by which predator-prey species interact and compete across spatial scales to characterize WSSV dispersal at regional scales for the local spatiotemporal structure of viral transmission. Thus, we create a generalizable and tunable engineered ecosystem that provides a clear route to prosperity and well-being to harness the worlds aquatic blue food systems to help end hunger.
format Article in Journal/Newspaper
author He, Jian-Guo
Li, Shengwen
author_facet He, Jian-Guo
Li, Shengwen
author_sort He, Jian-Guo
title A generalizable and tunable engineered ecosystem provides a clear route to prosperity and well-being to harness the worlds aquatic blue food systems to help end hunger: A perspective.
title_short A generalizable and tunable engineered ecosystem provides a clear route to prosperity and well-being to harness the worlds aquatic blue food systems to help end hunger: A perspective.
title_full A generalizable and tunable engineered ecosystem provides a clear route to prosperity and well-being to harness the worlds aquatic blue food systems to help end hunger: A perspective.
title_fullStr A generalizable and tunable engineered ecosystem provides a clear route to prosperity and well-being to harness the worlds aquatic blue food systems to help end hunger: A perspective.
title_full_unstemmed A generalizable and tunable engineered ecosystem provides a clear route to prosperity and well-being to harness the worlds aquatic blue food systems to help end hunger: A perspective.
title_sort generalizable and tunable engineered ecosystem provides a clear route to prosperity and well-being to harness the worlds aquatic blue food systems to help end hunger: a perspective.
publisher eScholarship, University of California
publishDate 2022
url https://escholarship.org/uc/item/2549g6k6
genre Iceland
genre_facet Iceland
op_relation qt2549g6k6
https://escholarship.org/uc/item/2549g6k6
op_rights public
_version_ 1782335916608585728

Similar Items