Difference between revisions of "Team:Duesseldorf"

Line 14: Line 14:
 
          
 
          
 
     }, 500);
 
     }, 500);
});</script><style>.notloaded {
+
});
 +
 
 +
(function() {
 +
    let l_t = document.getElementById("loading_text");
 +
    let l_t_c_t = 0;
 +
    let l_t_t = setInterval(function(){
 +
        loader.classList.toggle("alternate");
 +
        if(l_t_c_t === 2){
 +
            l_t_c_t = 0;
 +
            l_t.innerHTML = "loading...";
 +
            return;
 +
        }
 +
        if(l_t_c_t === 1){
 +
            l_t_c_t++;
 +
            l_t.innerHTML = "loading..";
 +
            return;
 +
        }
 +
        if(l_t_c_t === 0){
 +
            l_t_c_t++;
 +
            l_t.innerHTML = "loading.";
 +
            return;
 +
        }
 +
    }, 250);
 +
})();</script><style>.notloaded {
 
     max-height: 100vh;
 
     max-height: 100vh;
 
     max-width: 100vw;
 
     max-width: 100vw;
Line 926: Line 949:
 
c7.7,3.24,15.63,7.16,22.66,12.34c-12.59,18.04-22.03,38.21-28.5,59.22C530.33,1081.2,519.31,1074.99,511.17,1067.61z
 
c7.7,3.24,15.63,7.16,22.66,12.34c-12.59,18.04-22.03,38.21-28.5,59.22C530.33,1081.2,519.31,1074.99,511.17,1067.61z
 
M559,1091.62c5.67-18.16,13.66-35.61,24.22-51.48c0.38-0.58,1.2-0.67,1.7-0.19c19.05,19.92,36.42,40.4,36.8,47.29
 
M559,1091.62c5.67-18.16,13.66-35.61,24.22-51.48c0.38-0.58,1.2-0.67,1.7-0.19c19.05,19.92,36.42,40.4,36.8,47.29
C616.22,1089.69,591.55,1099.33,559,1091.62z"></path></g></g></svg><div id="loading_text">loading.</div></div><script>let l_t = document.getElementById("loading_text");
+
C616.22,1089.69,591.55,1099.33,559,1091.62z"></path></g></g></svg><div id="loading_text">loading.</div></div><!-- # TODO: #6 Fix table caption font--><!-- # TODO: #7 Fix citations links font size--><nav class="navbar navbar-expand-xl fixed-top"><div class="container d-flex justify-content-between"><a class="navbar-brand d-lg-inline-block" href="https://2021.igem.org/Team:Duesseldorf"><div id="logo_wrapper"><svg id="cerex_logo" version="1.1" viewBox="0 0 1500 1500" x="0px" xml:space="preserve" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" y="0px"><style>.st0{fill:url(#SVGID_1_);}
let l_t_c_t = 0;
+
let l_t_t = setInterval(function(){
+
    loader.classList.toggle("alternate");
+
    if(l_t_c_t === 2){
+
        l_t_c_t = 0;
+
        l_t.innerHTML = "loading...";
+
        return;
+
    }
+
    if(l_t_c_t === 1){
+
        l_t_c_t++;
+
        l_t.innerHTML = "loading..";
+
        return;
+
    }
+
    if(l_t_c_t === 0){
+
        l_t_c_t++;
+
        l_t.innerHTML = "loading.";
+
        return;
+
    }
+
}, 250);</script><!-- # TODO: #6 Fix table caption font--><!-- # TODO: #7 Fix citations links font size--><nav class="navbar navbar-expand-xl fixed-top"><div class="container d-flex justify-content-between"><a class="navbar-brand d-lg-inline-block" href="https://2021.igem.org/Team:Duesseldorf"><div id="logo_wrapper"><svg id="cerex_logo" version="1.1" viewBox="0 0 1500 1500" x="0px" xml:space="preserve" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" y="0px"><style>.st0{fill:url(#SVGID_1_);}
+
 
.st1{fill:url(#SVGID_00000013161161525588254580000002673574852607527089_);}
 
.st1{fill:url(#SVGID_00000013161161525588254580000002673574852607527089_);}
 
.st2{fill:url(#SVGID_00000177451362827637886900000014918150209390182539_);}
 
.st2{fill:url(#SVGID_00000177451362827637886900000014918150209390182539_);}

Revision as of 04:35, 16 October 2021

iGEM Team DD

loading.

= healthy plants =
= secured food supply =
= healthy humans =

With the worlds population steadily growing our demand for food is rising as well.

Soon, there will be
8 billion people to feed.

To meet their demand for food
we will need a more efficient agriculture.

Annual crop yields have already risen to
9.1 billion tonnes in 2018

BUT

a total of up to
40%
of crops are lost due to pests & pathogens
(=preventable circumstances)

If it is preventable, why isn't it prevented?

Treating infected plants and fields can be tedious work
and is often quite expensive.

The state of the art for pathogen differentiation is
either visual detection
or analysis in the lab.

Both methods work just fine,
but they both also bring their own set of problems...

1. Visual Detection


Visually, some pathogens look the same and even skilled professionals can not differentiate them.

2. Lab Analysis


Current lab analysis procedures are only possible when the infection is already in a late stage(too late to act). Additionally these analysis can take up to 3(?) weeks,giving the pathogen even more time to spread.

by detecting the responsible pathogen
we can save

time
effort
&
money

So... what did we do?

we researched and developed
a modern in-field quick test
which makes it possible for experts
to detect different pathogens early enough!

Thus, the farmer can take preventive actions
to reduced the yield loss
caused by these pathogenes.

read more about the details:

About us and our project

Design

Some quick example text to build on the card title and make up the bulk of the card's content.

Read more
Model

Some quick example text to build on the card title and make up the bulk of the card's content.

Read More
Human Practices

Some quick example text to build on the card title and make up the bulk of the card's content.

Read more